##gff-version 3
sequence01	MetaGeneAnnotator	CDS	434	895	.	+	0	ID=MGA_2;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583479.1;translation=MIYTFNNGMKDYFYIILFVSLFTDFIDGIIARKLNQTSELGKTLDPIADGITLFAFTILLTKKGLIGLWFCWFYFLRQLVLLIFSLVYVPKLKTVIGSNFLGKTGVCVLAIVLCIYAIELPQFYSYTNTLLIIAAVLLSLSLSDYIKFFLIQK;locus_tag=LOCUS_0010;note=WP_012583479.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Dictyoglomus turgidum DSM 6724) [pid:29.4%25%2C q_cov:88.9%25%2C s_cov:77.2%25%2C Eval:2.1e-14],MGA_2
sequence01	MetaGeneAnnotator	CDS	957	2969	.	+	0	ID=MGA_3;product=UvrABC system protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P37954;translation=MTYFKVSTNYIPSGDQPEAIEQIVAGIKSNVKHQTLLGVTGSGKTFTVAKIIEKVQKPTLVICHNKTLAAQLFSELKNLFPNNAVEYFISYYDYYQPESYLPVTDTFIEKDFSMNEEIDRLRLKTTSSLIEREDVIVVSSVSCIYGLGSPEEWKKQLVQLKINEEVSLQKLSAALVDIYYQRNDQVLERCNFSIKGDVFEIFPAYAENPIRIDLFDDKVQSIVKFDSLTGEEMEELSNCSLFPARHFVSDKDQNDSVIKEIKKDLKSQLAFFNKNKKFLEEQRLNQRTNFDIEMIREIGYCSGIENYSRYFDKRKPGERPFTLIDFFPKDFLTVIDESHVTLPQIKGMYHGDKKRKDNLVDYGFRLPSAYDNRPLKSEEFEGLLNQTIYTSATPGEKELELSQGVIAELVNRPTGLLDPEVAIKPTKGQIDDLINEIQKRKLKNERVLVTTLTKKMAEDLSEYLSTMGVRVRYLHSEVKTIERVKILRDLRLGDFDVLVGINLLREGLDLPEVSLVAILDADKEGFLRSKSSLVQTAGRAARHLDGKVILYADKVTESMKFLINETKRRRSIQIQFNRENNIVPKSIIKSVEDIMQSTRVAESYREQDFQPKRDIQTDKFLIEDKKLLIDMLSEEMLEAAERLEFEKAASLRDEITKLEKEIFKKTKGKK;locus_tag=LOCUS_0020;gene=uvrB;note=P37954 UvrABC system protein B (Bacillus subtilis subsp. subtilis str. 168) [pid:56.7%25%2C q_cov:97.0%25%2C s_cov:98.0%25%2C Eval:3.3e-219],MGA_3
sequence01	MetaGeneAnnotator	CDS	2966	4168	.	+	0	ID=MGA_4;product=sigma-54-dependent Fis family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933163.1;translation=MNIELMKQKAGIVGDSEQINQVMDMVHQVAGVEISVLINGESGTGKELISKAIHLGSKRSNNDLIVVNCGAIPEGIIESELFGHKKGAYTDATEDRKGYFEAADKGTIFLDEIGDMPLETQVKVLRVLESGEYMRVGDSKIKKTDARVIAATNKDLAKLVQEGKFRQDLYYRLKTVTINLPALRQRKSDIRSLVDRFALQFSRTNNIKYKGFTPEAIKALQRANWPGNIRELRNFVESILILQKGERITGELVEQQLENENLASFSGNPSLPVIVRQDPDQAERELILRQLLFLRQDIEEIKLMLKESGDSSLNYHKNISTHYNKPIDDNFINEVTEETLLKNDAIGAFNTKDLEKEMIVRTLEHFNGNRRASAKSLEMSERTLYRKINEYGLDKKIIKS;locus_tag=LOCUS_0030;note=WP_010933163.1 sigma-54-dependent Fis family transcriptional regulator (Chlorobium tepidum TLS) [pid:44.1%25%2C q_cov:97.0%25%2C s_cov:100.0%25%2C Eval:7.2e-85],MGA_4
sequence01	MetaGeneAnnotator	CDS	4131	4709	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMAWIKKLLNLNTILFSLLAVGCSYYSLAGNLPPGIRSVYIPLFDNETTVANVAETLTTQISNQISDQNILELVNFEESSQSLLKGGIISILDTPYTFNANEQVSDYRFTIEIEVSWINSLTQEIFFEKKFTSFGIYSIDLDPSMDGLDNDNDGLIDGDDSDEIGDSRDLAINVALNKIAIDIVNEILGTW;locus_tag=LOCUS_0040;note=MGA_5
sequence01	MetaGeneAnnotator	CDS	4713	5999	.	+	0	ID=MGA_6;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P39772;translation=MDYTINKLKKHLNETVELKGWVYNIRSIGKVWFMILRDGSGFIQCVVSKQDVDESIFALEESLTQESSVVVHGVVQEDKRSEIGVEILVKNIEVIQIAEEYPISLKEHGTSFLMDNRHLWLRSKKQFAVLRIRHAVIKAIRNYFDNNGFVLIDSPMFTGNAVEGTTTLFETDYFSRSAYLTQSGQLYQEAGALAFGKTYCFGPCFRAEKSKTRKHLTEFWMVEPEMAYFDLNQNMDLIEDFIESIISSVIQECSLELNILERDISKLQNITKPFPRISYDDAVKLLNDNGHEFKYGSDFGAPDEEKIASFYDKPVMIHSWPYETKAFYMKRDNADKLALGVDVIAPEGYGEIVGGGQREDNHDILVKRIKEHGLPLESFKWYLDLRKFGSVPHSGFGMGLERTVGWICGTDHIRQTIPFPRTMTRLEP;locus_tag=LOCUS_0050;gene=asnS;EC_number=6.1.1.22;note=P39772 asparagine--tRNA ligase (Bacillus subtilis subsp. subtilis str. 168) [pid:54.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-140],MGA_6
sequence01	MetaGeneAnnotator	CDS	6000	6467	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880029.1;translation=MKNFKGRIAVFGGREITEEIYNDTVKIGELMAEKNWLVFCGGYGGVMEAIAKGVSNKNGVCIGILKEKEFDQGNSFLTIPISTGMDISRNCLLSYNCEVGVAISGAFGTLSEIAYTLSQDKPLISYKSWDIKNSIKVDSINSLIEEVENCLIKSK;locus_tag=LOCUS_0060;note=WP_010880029.1 hypothetical protein (Aquifex aeolicus VF5) [pid:33.8%25%2C q_cov:91.6%25%2C s_cov:94.0%25%2C Eval:2.1e-22],MGA_7
sequence01	MetaGeneAnnotator	CDS	6446	8023	.	+	0	ID=MGA_8;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957853.1;translation=MSNQIKVAVCQINPTVGDVEGNFRKIIDFYNQSISKGAELVVFPELISIGYPPQDLLYNSKLIEKNIELLQSFSKQSTIPAIIGYVNSVGGKIYNSAAVCSDGKIDFSYDKMLLPNYDIFDEKRYFISGKSIGEVKIKIGDSEQKVVLQICEDLWEDLHDSKLSSSIEKLNPDLIINISASPFSNEKINSRIDLIKKHYSKTNCPFIYCNLVGAQDEIIFDGNSLIFDKDYKLISKGKSFQEDLLISNLVDFEDIKILSTEENLFNALTLGIKDYFIKSGHMKAVIGLSGGIDSALVAILTVNALGKDNVSLISLPSRFSSDHSKIDALKLAQNLECNFQTIDIDPIFQSYINELEAVFENQEQSIVFENIQSRIRGNLLMALSNNDNALVVSTGNKTELALGYSTIYGDMIGAILPIGDLTKIEVYNLCEYINKQDNLIPQNILDKTPSAELSPNQVDPFDYKHISPIIDKFITSNHNTELSSSFKKLILRNEFKRRQAPIILRVSSKSFGVGRRMPIINSFNE;locus_tag=LOCUS_0070;gene=nadE;EC_number=6.3.5.1;note=WP_010957853.1 NAD+ synthase (Coxiella burnetii RSA 493) [pid:39.5%25%2C q_cov:99.0%25%2C s_cov:98.9%25%2C Eval:5.2e-105],MGA_8
sequence01	MetaGeneAnnotator	CDS	8016	9797	.	+	0	ID=MGA_9;product=elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCH0;translation=MSKISSIRNFCIIAHIDHGKSTLADRILEHTETISKKKMQNQVLDSMDLERERGITIKSHSIRINYNNHILNLIDTPGHVDFTYEVSRTLSASEGALLVVDAAQGIEAQTVTNYLLALENNLEVIPVMNKVDLPNADVENVSEQIIDLIGCKKEEILHVSAKTGLGIENVLDAIINRIPSPNPPESDAFKALIFDSIFDRFRGVVAYVRVYEGEIKRGDKIKFFSHGTIYDVDEVGHFVIERKKSDSLSVGEVGYVIANIRDIEHVLSGDTITNFQKPCDVPLPGFQKIKPMVFSGLFPSDAEDYDDLRTALEKLKLNDASLVFEPEVSDALGFGYRCGFLGLLHMEIIQERLDREFGLSIVTTPPNVKYLANLKDGSQVEVQRPALLPEPKFLESLMEPIVRAEILTPVEYIGNVMKLCQDKRGQYKSTSYLSSTKVQLIYDLPLGEILFDFYDRMKSCSKGYASFDYTFKEYRIAKLDKLDILINKEPVDALSMICAKEDSYHRGLALCQKLKELIPRHQIQIPIQASIGSRVIARTNIQPFRKNVTEKLYGGDVTRKNKLLQKQKKGKKRMRMIGKVEVPQEALLAVLKI;locus_tag=LOCUS_0080;gene=lepA;EC_number=3.6.5.n1;note=Q8KCH0 elongation factor 4 (Chlorobium tepidum TLS) [pid:55.2%25%2C q_cov:99.8%25%2C s_cov:98.8%25%2C Eval:8.3e-195],MGA_9
sequence01	MetaGeneAnnotator	CDS	9798	10481	.	+	0	ID=MGA_10;product=CAAX amino protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011402891.1;translation=MIDYFKISKSPFFSLIITIPLFIIYELGIFYAQKNEISTLKNGADVIIEDILSFFGFSIFYTLSFFLLFFALFFSWKHKKDFKSLKLRFSYFILFLIESVLYSLLLVVIIKSIPLLIEFKSMSYFDLTLLIGAGIYEELFFRVILITFFTKILQFIFTNSSKFFWIPIILSSIIFSLFHFIGIDTFSQDAFTLRFIGGIYLALVYHFRGFAMASVTHSLYDIIVFFS;locus_tag=LOCUS_0090;note=WP_011402891.1 CAAX amino protease (Salinibacter ruber DSM 13855) [pid:24.8%25%2C q_cov:97.4%25%2C s_cov:86.3%25%2C Eval:5.2e-16],MGA_10
sequence01	MetaGeneAnnotator	CDS	10491	11219	.	+	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFIILFLTFFQSIIFSQSSSNSLSLTIYPEFSYQGISIEYKFFSNGELIKFNVPSNIDSVLYTISDTNLQKEEILPIVEKTIFSQQDEGLHTIYAFLEQFEKIPSERKFSYSFLTNKSFDNIILSLQIPFGSEDLSFQVNNNEVEERVRDQNGLTFLQTEISDFDQNESVEIGLRYYNPHGQTSIEYASNIAFKSQETDNLITPKVDNIKRYPFLTWQPMLIVLIMGLLIIFNYETIKKKN;locus_tag=LOCUS_0100;note=MGA_11
sequence01	MetaGeneAnnotator	CDS	11194	12204	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQSRKRIKIILLFLAVFFVSSCDYKREAIGGSDEIVVLAAKEDREKVTLVLNQIFNENIFTPSPESFYRIIFANPEDFSALKNQTNLIIASLGDYELNPGTKLSKELLGTKKYTQLIEKDQIIISKNQFAKNQIFMIIGSKEINELQNFAEKNAQFIKEQFDQNFINKQSQFIIQSKRQEMIENELKEKYNWTINIPWGWEIIKDDNKNNFFWMGQEMPFRWIAVHWLDGKFFSEKEIRDFIVEFPTNNFKTIQFNQDYIFTEWQNYNDNYGYKIDGLWESIEEAKGGPFSGFIFFDQETNRTFFISYLVFNPGGKKVFYLKQMELIAKTFRSNP;locus_tag=LOCUS_0110;note=MGA_12
sequence01	MetaGeneAnnotator	CDS	12201	12911	.	+	0	ID=MGA_13;product=dolichyl-phosphate beta-D-mannosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942433.1;translation=MKRLVILPTYNESKNIISVLSAINDVDKSIDILVIDDNSPDKTAELVKQFDKDNLFLEKRSKKMGLGTAYIFGFEWAILNNYQQIVQMDSDFSHDPKEIPLMLNLLEKNDLVIGSRYNGGLRVINWPIRRLYLSYFANFYARVITGVPISDLTAGYRAWKVETLKKINIQECLSQGYCFQIETAFRAYQKNCKLIEHPIVFTDRTVGESKMSRQIVLETIFKVWLFGIWRIFGTKK;locus_tag=LOCUS_0120;note=WP_010942433.1 dolichyl-phosphate beta-D-mannosyltransferase (Geobacter sulfurreducens PCA) [pid:45.1%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:2.3e-54],MGA_13
sequence01	MetaGeneAnnotator	CDS	12908	13858	.	+	0	ID=MGA_14;product=acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74DB5;translation=MKKYYLPFEKPLREIDFEIDSFNSFQSDQEGNNHLIIKKNEIEKSVFSNLSSWETVQLARHPNRPYTLDYINDWSTDFIELHGDKAFADDHAVVAGIGSIDGLKLAIIGQQKGRNTKENIFRNFGMMKPEGYRKALRVMKIAEKFKLPILTLIDTPGADPGIAAEERGQGYAIAKNLFEMASLKTPILSVVIGEGASGGALGIGLCDKMLMLEHTWFSVISPEGCASILWKDSQKAPDAAEALKLTPKDLVELNICDKIIFEPVGCAHRNFEETSKILKKSILEEFRLWNEKRDMNFDFLSSRVERYSALGIFNES;locus_tag=LOCUS_0130;gene=accA;EC_number=6.4.1.2;note=Q74DB5 acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha (Geobacter sulfurreducens PCA) [pid:52.6%25%2C q_cov:90.2%25%2C s_cov:90.6%25%2C Eval:1.3e-83],MGA_14
sequence01	MetaGeneAnnotator	CDS	13855	15681	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIITNMRSQMKIVMWTILILFIASMAIGGLVGGASISEIFGQRSPNQIGSLNDKPIYLEDFNQLVSDEILRIQGDSGQNISDADREYVRAIVWERLIQDLIIQDEIEKRSILISDNEVLFQLKNNPPPFLQSNPGFQSNGKFDIEKYMGAIITPENIDWRPVEQFMQSVYLPNYKLQQYIINGASISSQEIRENYKKRFVNYSLEILHITDKSLTEDLEISNELILEKYNQEIENFKKPEIRNLKYVSWPIVSSELDSSRVLSDAEKLLSRARNGEDFSILANNYTEDPSNFSDPNNLKGGNLGWFGRGVMISQFEEAVFNGKKGDIIGPILTQFGYHIIKINDKKITEDGDEQADASHILLRIMPSRDTEDLLKSKAEVFSFDSREFGFFEMADSLKQSISDASPVQKESIFIDKIGVARQAVSFAFNNPVGSVSNVIQNDNFYMVFYLDSVNKPSTIPFDQLQDELKNELLVEKKRKLLDDLAKSISSNEMNFAQLKNQNDTFEYIEEDSGTLIGSFESIGKSNYLVGALSNAKQGDLVGPIRTIRGNAFVKVKAIGEINEADFEEKKDSIKFSLLIDRQNYLWGHWLQALRDESDLEDYRFDFY;locus_tag=LOCUS_0140;note=Q2S2P1 peptidylprolyl isomerase (Salinibacter ruber DSM 13855) [pid:24.0%25%2C q_cov:53.6%25%2C s_cov:45.3%25%2C Eval:8.7e-22%2C partial hit],MGA_15
sequence01	MetaGeneAnnotator	CDS	15771	17978	.	+	0	ID=MGA_16;product=peptidase S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964428.1;translation=MKKIIFIYGILGLISSINAQNEVTLESVLDGTFRSKSIGSYQWVNDEDAYYFSEKDSLGTNILKYNVATGDTSDAFSISKNLIENFSYSFNADQTKLLLKTNNRKLWRHSSYGTYHIYDITSQNLISVSANPDSLRNVKFSPNSEYISYVRNDNNLYVYSLKNDEESQLTFDGSDTILNGHHGWVYEEEFGSYDSYKWSPTSSFIAFAQEDQSLVKKYPLVDFETKYPTVKYIYYPKSGEDNPIISLKLIDIDSREISSIATPEDGYYYPRIFWQKETDNLFYTTLNRKQNDWKLYSYEILNDSFRLILNDKNDTWIDAFDFFGMSGVFNIDILSNGDIIWTSERDGYKHIYRSRPDGRFINQITRGDWEVNGIYGIDEENEIIYFNAKKESEIENHIYSIRFNGTRLKRLSKEDGSHYGSFSPTLNYFIDYYSNLELPTQIKVKSNSGTIKRTLVENSRSIYDEYGFTYPNVIDIFTDDGIRLNGLITLPHNFDPSKQYPVILHNYGGPGSQIVQNSWGAGRHTFHQYFAENGFIIFSFDNRGTGGRGKAFKDYAYGDYGKYLVEDHIAAAKYLKSLTYVDGDNIGVWGWSGGGYLTNMCMTLASDYFKAGVSVAPNVDPLLYDTIWTERYMGLVDENPEGYKNASVLTHVDKAKGYLLQIHGNADDNVHHQHSIKLAKAYAEHGKHMEMFIYSNADHGMGNNNFLATEFEAQRSKNSRHLYKKMADFFFQYLK;locus_tag=LOCUS_0150;gene=pepX1;EC_number=3.4.14.11;note=WP_011964428.1 peptidase S9 (Flavobacterium psychrophilum JIP02/86) [pid:33.6%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:2.7e-121],MGA_16
sequence01	MetaGeneAnnotator	CDS	17989	19599	.	-	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNHIEINNHGHFPYFGNGINYHEELFGLKFDAQLIQKTSDFIWNDDSTLPKFLCEPLPGKFSAISDLAQNMTVHLNGNKGLIGKFELLKEVERLDPSLMDGFIEIVKNHLKNPSEQSSNLIADFRCWSSWLANGTKIEPIFNGEKKANSFIPWPLAGILLLSSKILGQQPEFEYAADYVLRSGILPKEDVNTLSNSKQRVDYIRSIKPIVAFHDFDGNEQGFRMTHLAMEETSRKLLSNASAAILKDEFSTNSLNQMEEALYQSNQLFNCMWDVSNPELYNKEVRIFIQGLNGNQGSIYDKNGLFFENCGNDSNPTYNSKGLFISNLHGQTGANSSYYPIADEITGIGNHTRAYVYDEKVDPIIIEKILFSGYVANTDLPENSKLDSLSRLLKSFRVGYRPPSHHKLIVNTRNQIQNSTIEQQIQSDNDKKKALANCIRWIIQHRIDHYSMVVSYILKSPDPYSTQTKNRGTGGSPTPSFLPSIFLQTIERLTALIENNDEQWVKDILSITDNHQESMKSFIEIAKKSSRKERLS;locus_tag=LOCUS_0160;note=MGA_17
sequence01	MetaGeneAnnotator	CDS	19602	20216	.	-	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNQNIIIVLLVIGLAYLGYSLNDTRNELKKYKDRYKSVSIKYIQQIIDPPLLEKPNSEDMPITKVDFTSNILEFENLDGQSYTLKDFKGKVLFINYWATWCNPCLAEMPQMAELYKKYETNNEIAFLYLSKEEKQVIKDYLPKDENLQELPLYKIITDDELFATRGIPTTFIIDKDGEIIVKDVGSALWNDSSVEDFLNSIL;locus_tag=LOCUS_0170;note=Q6HL81 thiol-disulfide oxidoreductase ResA ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:37.2%25%2C q_cov:61.8%25%2C s_cov:71.7%25%2C Eval:4.3e-16%2C partial hit],MGA_18
sequence01	MetaGeneAnnotator	CDS	20269	20472	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLGYIIFIAFYLLVIFYSIQSLETFYPDGLMLLLVFGGILVFLIKTIKDRLSNKEDDYYSKEINE;locus_tag=LOCUS_0180;note=MGA_19
sequence01	MetaGeneAnnotator	CDS	20469	20783	.	+	0	ID=MGA_20;product=UPF0145 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E1X0;translation=MIISTQETIQDRPVQEVLGVVSGQSIRARHLGKDILAAFRNMVGGEITEYSKLMAESREQAMDRMIRKAEKLNADAIVGIRFTTSMLQAGASEIFIYGTAVKLK;locus_tag=LOCUS_0190;note=B8E1X0 UPF0145 protein (Dictyoglomus turgidum DSM 6724) [pid:55.8%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:3.9e-29],MGA_20
sequence01	MetaGeneAnnotator	CDS	20783	21106	.	+	0	ID=MGA_21;product=antibiotic biosynthesis monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000168851.1;translation=MHTIPDDVTNAYAVIFSYILSDNLEGYSEMDLLTIDEVTKIDGYLGYEKFGNGKQNTFISYWKNLDSIEEWKKNLLHIEAKKNGPKWYQNFRVQIVQVLKDSNYFEK;locus_tag=LOCUS_0200;note=WP_000168851.1 antibiotic biosynthesis monooxygenase (Bacillus cereus ATCC 14579) [pid:42.4%25%2C q_cov:86.9%25%2C s_cov:85.6%25%2C Eval:1.5e-12],MGA_21
sequence01	MetaGeneAnnotator	CDS	21096	21596	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKVFQIQNFHYFFRIQHDNSTLFSLDFSETKKGFINPQLSLKISRNITSPFEREVKNQIQAYFNGKLQKFDIPTYQETNLFSEKVFSAIEKIPYGKTLTYKQIAEKIKFPKASRAVGRSTGSNRIPIIIPCHRVIGSSGRLVGYSGGGGLLFKSYLLLLEKKFK;locus_tag=LOCUS_0210;note=Q73R74 methylated-DNA--protein-cysteine methyltransferase (Treponema denticola ATCC 35405) [pid:45.0%25%2C q_cov:71.1%25%2C s_cov:68.0%25%2C Eval:9.1e-20%2C partial hit],MGA_22
sequence01	MetaGeneAnnotator	CDS	21626	24028	.	+	0	ID=MGA_23;product=beta-lactam antibiotic acylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110242.1;translation=MLSKKNILFFILIVITIGFLSFKSFISPAKIQYEGINQDLALKEKVDVFFDDFGVPHIFAENDSDLFTVAGYLGARDRLYQMTFLKYAYKGQISEVINDTLFSNDKFIRTIGFQNVALESEKKISPEIRNYLQWTCDGINSYINSLSPSEYPLEFKLLGIKEIPLFEPIDIVALSTMMAWELEGGWDSELFFGAIHEKLGEEYLKDILPEYDPSFITIATNDMLSETFQSFSNDSKSLRKLLNTDREGYGSNVWVLSGEKTESGMPLLTNDPHLAYNQPPWWYEIRLKSPSFNFGGYGLYGFPLPVLGHNESIAWGFTNVMTDDMDFYIETINEDSTKYFLDEEWVDLKIRKETVQLKSGEIRQFDVRSTHRGPIISEIHKDAKKLNKAISFRWTEYDAFDETTALFKLGQAENWEEFSQASKLFGAPGQNWTYADVQGNIGWRPSSKIPIRNGGEKLLPFDGSTSKNDWKGYIPFEEMPYLFNPEKGYISNGNNKTIDDSYPYYISRYWADPSRAQQIDSRINSKDKLNVEDMKSMLNDIHSPFGEEYAKIFVEYYSVGSSKEGDQIYNLISEWDGSESKNSSATVAFHSVYLSTLKNLFQDELSQFGNTSFDTFYSLKYLRSIALRKMFRDGNSKWIDNVSTSKKESLNDIMNQSFYDAYFFIKNNFGEPSKIVWGDVHQVSFKHRLDKDPLVEKLIKFSVGPLPMSGSGFTPQAASYSVEKPFEVRAGSSMRRIIDLSNLDNGFSILPTGQSGVFGSKHYDDQAELYNQGLFKNFRFSEEAIRSDANMKKLLFKPAD;locus_tag=LOCUS_0220;EC_number=3.5.1.11;note=WP_011110242.1 beta-lactam antibiotic acylase (Bacillus cereus ATCC 14579) [pid:31.9%25%2C q_cov:93.0%25%2C s_cov:96.1%25%2C Eval:4.2e-112],MGA_23
sequence01	MetaGeneAnnotator	CDS	24039	24404	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMDNVFNKISLSLIGLALVFYLISNQFTALIPGFIGGFIQLMLMLGRQFPSMHKHFAHLNLFFFGMGCGATYKSIPLLFGYLLSGNDLDRPLATLEQFLTFVLCLIAILLGVQSFINARKK;locus_tag=LOCUS_0230;note=MGA_24
sequence01	MetaGeneAnnotator	CDS	24479	25441	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIIYTFLLFGCQSGNDTLYTEECESNYSTKDILTDISVRMYNSDESINAYSIYSWSSNETSRILTGNGIPNHEVGTFPNNNNPNTITAQNISETFTLCPEIVSNNGVNVNGPAQIIAYAINSVKFDPATAGRCDDNGVCSLAQGQGNWSIEALGHNTFDFGDDMNHAHVQPNGQYHYHGMPELLVDFLGENQGMTLVGWAADGFPVYARYGYSNSFDSNSAIVSLQSSYQLKSEGDPGRPNILTTLVGGPGQGNSSPNIPIPMGAFTQDYEYIEGSGDLDECNGRFGVTPEFPDGIYYYVVTDEFPFVSRCLKGDFN;locus_tag=LOCUS_0240;note=MGA_25
sequence01	MetaGeneAnnotator	CDS	25477	26001	.	+	0	ID=MGA_26;product=DNA-directed RNA polymerase sigma-70 factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001209040.1;translation=MKSDNELIKDYQNGEIEAFNELVKKHLNMTYNYFLSITQDRVESDDLTQKVFLNLIKGLKNFRFQSSFNTYLYRVKINVLNSYFFKNKWNSFLHLDQIKEPSIDDSTHEKAFLSKELWKNIEMLPKKQRNVIVLRIANQLSYKEISEVLSISEDAAKNNYAHGVKTLKKRMNHG;locus_tag=LOCUS_0250;gene=rpoE;note=WP_001209040.1 DNA-directed RNA polymerase sigma-70 factor (Leptospira interrogans serovar Lai str. 56601) [pid:25.4%25%2C q_cov:98.9%25%2C s_cov:93.8%25%2C Eval:5.0e-11],MGA_26
sequence01	MetaGeneAnnotator	CDS	25994	26260	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDLKKAHYQFDEVIDEGQFLNNLYQQHHLKEKRKKQFLYVGPIAMICLFYLGFNSSLFSSSESIYFSDSLNYLDSFDSIELLAENNL;locus_tag=LOCUS_0260;note=MGA_27
sequence01	MetaGeneAnnotator	CDS	26277	26774	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILTIMLCGLIFGQNQDSSKKDIQDKKGVWLVGMQTKYLELSTEQAEKFFPLQREFHGKIEEIKKKQRDAIKQLENDIENPTKADFNKVIDLEKKLKIEAATMHANFLTAAQNILNDNQMVKLLLMEEKIKDSLSSELNERKNNPRDMKRRLDRYRKNNRNN;locus_tag=LOCUS_0270;note=MGA_28
sequence01	MetaGeneAnnotator	CDS	26784	27671	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKITLFIFLSVFFYSCSDSMNPFSKDDLMNDSQLIAAIENDASAINIDAADLPVPSLRVVEEEYFDHIFVSASISPKYGYSVSMGDMTRDVGDIAKIYFARDGRILGSDDSIRNGIGDDRHRHARKCFRFAFPLSFHFGDEHFTANSKEEFMSILKQRYESSGVKEKPTFSYPIQIEYKPETDGGDPVIVTINSDEELKNAYQACRGDEHDKKCFSIEFPVSFYMPDGTIITAENEEDLSEKMKTFYASFSGRKQRPQLIYPVTIIFEDGSVMTINNLLEMRKAWKENCGRNSN;locus_tag=LOCUS_0280;note=MGA_29
sequence01	Aragorn:1.2.38	tRNA	27761	27834	.	+	.	ID=Aragorn_1;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	27900	28859	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNTYFVSIISLFLLFGCTENISVVYDGVESAGKFMPANGEENELNGAAYVLASDDYMDKALNLTEAYSNLDSDKMKELFVEGDQLNYLLEEFENLESYSWKPWAMIPLRNIGDDGSFVISFSNDEEVQKNGTKLRASYIDVIRFDDADEGKVSWIWGTNRDNQENECCLKEGGKFIGRNPDNDWNGRPFVFSNRGEIETLETFIEAANKLDAEAVSLLFTNPFLFNGEEITHDELAEIFSNRESQEWKPWAMLPIKIKDTDPASGVLVYSTAKVVGKNGNKWEADLSEQYFFDLDGKIESVNQYVRELPKQNESPEE;locus_tag=LOCUS_0290;note=MGA_30
sequence01	MetaGeneAnnotator	CDS	28840	30000	.	+	0	ID=MGA_31;product=histidinol-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108338.1;translation=MKALKNKFIILLACCSIFAQQANPNLSREITFPNLDNYITIIGDFHSHSVFSDGSVWPDIRIEESIKDGLDIFAVTEHLERQVNKNDIPHLDRNRSFDLAKEFYQKKDLSVFRMWELYNQPFNPKELIIINGAEISREFPYGHNNAIFLKDANELNTPNINDAFEAAMAQKAFIFWNHSWRGQKPSATVSLTEFHKDLISKGYLHGIEIVNKDNFSEDALRIALDYNLTIMANSDIHGIIDWTYNLKEGGHRPVTIIFSKEKNEKSIKEALFNRQTVVWHNNTLVGRNEWLLPLIEKTILIDSISLSEKGGVVNVFLSNNSDTKFILKNISKFDFFNDSNIVEIQPQGSTKVSVISRGDEKINLRFEVLNAIYAPRMHPVLEMKVR;locus_tag=LOCUS_0300;note=WP_011108338.1 histidinol-phosphatase (Bacteroides thetaiotaomicron VPI-5482) [pid:38.2%25%2C q_cov:95.1%25%2C s_cov:96.6%25%2C Eval:3.5e-60],MGA_31
sequence01	MetaGeneAnnotator	CDS	30005	30616	.	+	0	ID=MGA_32;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7T6;translation=MKKFIYLIVLILIVIGVSMMTSKKVQEVAVISTKYGDMVIEFYPEIAPMHVESFKILANEGYFNGTLFHRVIPGFVIQGGDPNSKLDDRSIHGTGGRAGKFFGIGDENDSSTWLIPQEFNATPHVKGTLSMARTNDPNSASSQFFICHDVASFLDNNYTVFGQVIDGLETIDSIVNLEKDLRDNPIEKVEMQVKIVNKDQLDL;locus_tag=LOCUS_0310;gene=ppiB;EC_number=5.2.1.8;note=A5I7T6 peptidyl-prolyl cis-trans isomerase (Clostridium botulinum A str. ATCC 3502) [pid:44.1%25%2C q_cov:79.3%25%2C s_cov:84.9%25%2C Eval:2.5e-29],MGA_32
sequence01	MetaGeneAnnotator	CDS	30591	31415	.	-	0	ID=MGA_33;product=esterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000662583.1;translation=MKKKQKIGLALGGGAARGFAHIGAIKALEEFEIPIDLISGTSIGSFIGALYSSGNLKEFEKEIKSKNSFMRDVLLKLDPTFPKLSLMNGNEVIKIFKSLSSARTFKDLSIPLTTVTTGIEKNEKIECNDGDLINAIRASIAIPGVLSPVYINQRLCVDGGLVDPVPVESLYNMGADITIAVNLYGLFSSKHSQENYNIIDIVDRSAKIILNNIAQLSFKIHSPDILIEPPIDEFKGWDFHKSSDLIEIGYQETKRVLNNNQETLMKIINLTDPY;locus_tag=LOCUS_0320;note=WP_000662583.1 esterase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:36.1%25%2C q_cov:90.9%25%2C s_cov:91.3%25%2C Eval:4.7e-36],MGA_33
sequence01	MetaGeneAnnotator	CDS	31465	33345	.	+	0	ID=MGA_34;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989921.1;translation=MYFRILFIYLLTIMSCSTNSPSESAQVPLRSEIDSKYKWDLTVVYENDEAWRKELTVLEQLYPKMTSFKGKLLSNPQTLLSSIKLDEEINQYFGRLYHYASNSLNADLTNETYQVMVQEIRNIAIKYSQLNAFYVPELLEAEYSKIEEFMKIEPDLRLYEKQFKDIYIAKPYTLSENEERLLSMTRKLSGIPNEAYDIMKATDFTWGTFKDENNIELTMSEGRYGKYTKSPNRRVREDMYKALYVPFKESINTLSVLMKGNIDGNIFYSSARGYENALEAKMKGSGISTEIYKNLIKSVNNNLQPLHRWASIKAKYLNLDKIKPFDTYAPLADYSREYTYEEAQEIVIGALQPLLQANNGELQAFTERMYQENLIDVFENQGKESGAYMSSTWGLDPRIKLNFAGTLDDIFTLAHELGHAYHSYLSQKNQPYPYYGYDTFNAEVASVTTESLLMDYLLDNVSNDEEKAVLLQNYIQNIGSTYYRQARFAEFELFMHESAENGQILTEDFLTDNFGKMYQKYWGPSMELTEEEAYSWSRIPHFYYNFYMYAYATSFAAGEKISERVQKEGQEGIDGFISFLSSGSSDYPVELLSLAGIDMTTSEPFEAVSRKMNQLMDELETILEKK;locus_tag=LOCUS_0330;note=WP_010989921.1 oligoendopeptidase F (Listeria monocytogenes EGD-e) [pid:37.9%25%2C q_cov:96.3%25%2C s_cov:99.8%25%2C Eval:5.2e-131],MGA_34
sequence01	MetaGeneAnnotator	CDS	33342	34460	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLLRVFFSVLFLAQTFAQDQNVEEVSIVSTANVFSEYFDCGCPKNPLGGFARKSFFLKKMMPDRQTILVDAGNIFYNDSRVNPDNLSIDQRKFKAKHLVDILEQFNHNVVNIGSNDFKGGKEFLVDITNESSVSFISANLRDKESGNLLFKPYQIVEEGGFKIGFIGLSEATRFESIINENFIEVGNKYINEIEDSVDIIVLLINLSEQNQIDLASSFKDADFIFLSGTTSVTGPRTKQSENGPKIYAGGVQGKNLSILDIRVKDFNNEITDVSARFNRLQEIDFRLNRLQAKDPKKTLESLYSDQPNVLDLIKKYQKEAVELGQALSGISNRSIFFSVPLSPSIPDDEEIAAFIDEIAQKADFPLGRDS;locus_tag=LOCUS_0340;note=MGA_35
sequence01	Aragorn:1.2.38	tRNA	34517	34590	.	+	.	ID=Aragorn_2;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence01	MetaGeneAnnotator	CDS	34589	35074	.	-	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSIYKRKRNGKFDGYVMYSTYAFDPIKNKKRYFNITIGKLGPTLSWNDCIKKKKDLDRSFQNQKQNKKEMILNQAIKTYIEFKKNKNSKISAASIKILSYHLNKFQKILNKRYGMGIKTKHIELKMLAWYFALRQSQLKESSLEVHRRIIFSFLDWTKDS;locus_tag=LOCUS_0350;note=MGA_36
sequence01	MetaGeneAnnotator	CDS	35219	35677	.	+	0	ID=MGA_37;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL97;translation=MAEKIDIISTNRKALFNYEVIEKFEAGMILKGSEVKSLREKKITINESFVSIKSFRVFLMNAHISEYSHTGFSGHDPLRVRELLLNKKEIIKLQNSVMQKGLTIIPLKAYFKGGKAKIEIALGRGKKNFQKKESLKNKDLEREASRELKRRR;locus_tag=LOCUS_0360;gene=smpB;note=B5YL97 SsrA-binding protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.6%25%2C q_cov:96.7%25%2C s_cov:98.7%25%2C Eval:2.8e-35],MGA_37
sequence01	MetaGeneAnnotator	CDS	35674	36888	.	+	0	ID=MGA_38;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEW9;translation=MTKLSVDEQLEIISRGTEEVIPLDELRNKIEKSIKTNTPLNIKLGCDPTRPDLHIGHAVVLKKLRDFQDLGHQAILIIGDFTAMIGDPSERNKTRPQLSLEEAKVNAKTYIEQAKVILDINNLKILYNSTWLNKMNFTDVIEMSSKYTVARMIERDDFTKRFESEIPISIHEFLYPLAQAMDSVEIKADVELGGTDQKFNLLVGRDFQREYKSDPQIIITLPLLEGLDGVEKMSKSYGNYIGLTDSPSEMFGKIMSINDTMISKYFKLALFYDSEEIENIETQLSNESTNPRDIKRQLARELIARYHSEKDALIAQEEFDQIFINKSTPEDIEHYQIGKNTLLIDILLEKKLIESKGEGKRLITQNAIKIDNEPCKDPLFDLKSIKEKEVVVKVGKRRFLKIIL;locus_tag=LOCUS_0370;gene=tyrS;EC_number=6.1.1.1;note=Q8KEW9 tyrosine--tRNA ligase (Chlorobium tepidum TLS) [pid:54.1%25%2C q_cov:98.5%25%2C s_cov:97.3%25%2C Eval:5.6e-117],MGA_38
sequence01	MetaGeneAnnotator	CDS	36966	37295	.	+	0	ID=MGA_39;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87KH6;translation=MSNRIIEVNDNNFEDIVINSSTLVIVDFWAEWCGPCKAIAPILDKISADFGDKLIIGKVNVDLVKETPVKFGIRSIPTLLFFKEGKIVRQEVGLLSEQVLKSIINQFIN;locus_tag=LOCUS_0380;note=Q87KH6 thioredoxin (Vibrio parahaemolyticus RIMD 2210633) [pid:54.3%25%2C q_cov:96.3%25%2C s_cov:97.2%25%2C Eval:1.5e-28],MGA_39
sequence01	MetaGeneAnnotator	CDS	37319	38245	.	+	0	ID=MGA_40;product=thioredoxin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KE48;translation=MTDKIHKIIIIGSGPAGLTAAIYASRANLFPLVFEGNQPGGQLTITTDVENFPGFPEGVMGPELMDLFRKQAVKFGAETQFKNVSKVDFQTQPFKVYVEEEEFLAESVIISTGASAKMLGIEGEDLLGYGLSTCATCDGYFFKDQNIVVVGGGDSAMEEAIFLTKFAEKVTIIHRREDFRASKIMLDRAQSNPKIEFIVNMTVEKILGDKENGVTGLSLRDTNSKEIKHFECTGIFYGIGHEPNTNIFKGIIELDANGYIVTKPGSSKTNVKGVFACGDVQDSIYRQAITAAGSGCIAALDAEKFLES;locus_tag=LOCUS_0390;gene=trxB;EC_number=1.8.1.9;note=Q8KE48 thioredoxin reductase (Chlorobium tepidum TLS) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.1e-99],MGA_40
sequence01	MetaGeneAnnotator	CDS	38282	38962	.	+	0	ID=MGA_41;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023815.1;translation=MELKQIYDVNNLKLTFKSKKVLEINTLKFHNGLIYGICGNLGSGKSSLLKVLSAEIKQSSGEVLYQGKEFTTNFFGKIRKEKDIAYIHVDLLKDSSTVESFIKGLFGKKSEKIKSNFFTNSGMDSLWRVRINNLSDGEKHWLKMVIALEKDPRVLLVDDYGLFLDFKSESLIRKKLMKMNSYQGTTIILSSTSDFFLKQFCNVIFYLDNGHISKVRKGDTRRKNKN;locus_tag=LOCUS_0400;note=WP_011023815.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans C2A) [pid:24.7%25%2C q_cov:90.7%25%2C s_cov:83.5%25%2C Eval:7.7e-12],MGA_41
sequence01	MetaGeneAnnotator	CDS	38934	40574	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGEKIKIKKELLVASFFLFSFSSSLNAQVDSRFSTFDWTIFSKVNEITSISEGYSHIYFAGGNAGILRFNRFSKRFDIPLTRGQGFKSERVQHVYFDSVTGILWLVGNKLIENTQFLDSNWNSKSLSELGINNGNQILGIGSSENFIWLNTSLGFLKIDHISGSLLGNYPYPDSKNINWGNISARELQFLEINFDDYFIRENWMLTKNGAYDQSGNFRQFLSYFEDSYGNLWIGLEDGYILYGEEFSKNISILKTGICCEFPQSLVVEDNKIWLSGVSKSNFLISIFDKEYDLLQEILSERYQVFNNHNFYSSLKVENELWFGGDSQLLIYDISKDQFSEINEFDGVPIGKINSLKILDNHIWVLSSNGIAAFDRRTKKQVLPELSSRVFRSNALVGDMEIIGDDIYLIMNYKIFIFNKGSSGFQEIDLNSDSLKTDKKEDIFYSKLFFTNSKRIFLTQKGIFIFEDNYLIPNSTFFGKKVFDILSINDSIFIALEDGLMSINLNDYGIEFYYQFDFLKSIVKLYEIDNKLVLLSDSGLISFNF;locus_tag=LOCUS_0410;note=MGA_42
sequence01	MetaGeneAnnotator	CDS	40577	41800	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFIILFFSLVFSQNFRENVELFTHENFIKPSKDDKLEIVSIMQIPNLSLQFIKSDIFKANFQASIVILNDDVILNQNNFEKQITAERFNDTVSRRIVTILKASNIVENKNKIFSTFYLKDLDTKNDSEKKEKINLDSIHKSQSLTIYQPIFFKKIEGEWGFGQDLFPTNIERVEAVDNELIFNQYFGGFSGNYSIRIELLDKSKKVIWSDEINDKILSDNFDFKPISIPYDKIPKGQEIGIKINLSHNNLSTSKLYSFGLLDSYKYFGIPNLDQALEQMIYIYSAEERKEYRDIQDDDKEIFFKKIWAKRDPDRTTKENELLEEYFKRVSFADSQFSRGSSLGWRSDMGMIYILFGKPDEISRNSNIQGTYNIETWYYNNVSKNFVFIDRNGFGNYELDPPFFY;locus_tag=LOCUS_0420;note=MGA_43
sequence01	MetaGeneAnnotator	CDS	41801	42322	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISDNQKHQIISILDRLKDSLNDEELKLYNQLKKGDDFKIFSLFTDGACDFNDQYEPVNAGIGFIVYDSDNSVLLKVSENIGKKTNNEAEYMAVIEGLYKCVELKIKNLRVFSDSELVIKQLNGLYKVKNERLKLLNIEVKRISSSFESIQFEHVRRELNEEADALSKEGLTK;locus_tag=LOCUS_0430;note=WP_012546858.1 ribonuclease H (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.4%25%2C q_cov:72.3%25%2C s_cov:93.2%25%2C Eval:6.9e-21%2C partial hit],MGA_44
sequence01	MetaGeneAnnotator	CDS	42361	43404	.	+	0	ID=MGA_45;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545439.1;translation=MNFIEKIKSSFQKNINWVNGDIAIDLGTANTLIWVTGKGIIINEPSIIARSTKTGEVLAVGNDAKQMLGKTHEGIETIRPLRDGVIADFTAVDEMIQGFIRKVNLNRLTRPRMVICVPSGVTEVERRAVRDSGEKQAAREVYLVEEPVAAAIGIGLDISKPEGNIIVDIGGGTTEVAVISLNGVVTKKAIRVAGDEMDDAIQHWFRNEHKLEIGTRTAEQIKISVGSAMRSRSTKNILVKGRDLVTGIPKTIDVRADEIRLALKDPVRRILEVIKEALESTPAELSSDIIDRGIVLAGGGSQLQGLDQVLREKTGVPVNVAEEPHLAIVKGCGKIIEDLEKYKNVLL;locus_tag=LOCUS_0440;note=WP_012545439.1 rod shape-determining protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:54.9%25%2C q_cov:96.8%25%2C s_cov:98.3%25%2C Eval:3.0e-100],MGA_45
sequence01	MetaGeneAnnotator	CDS	43488	44195	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSGKESFNNFRLKSLDFFSFLYSPFNWIDNQSFLIKKLEVLSQENLKLNLELNLLKNQDSENARLRDFVQLKEKVLINFIGADILSRGLSSNLTSVLVDRGSIDGVKVNFPVMSSKGIIGKVISVDTDVSEVQLISDVNFRMSVKILPNEAEGILRWTNDDFCEVFEVKRTSEVKIQDIVVSSNLSPFFPENLPVGEVIGIYDSTDKSSKVLKIKLFSDLSRINQVFIGLQNK;locus_tag=LOCUS_0450;note=WP_011964506.1 rod shape-determining protein MreC (Flavobacterium psychrophilum JIP02/86) [pid:27.5%25%2C q_cov:76.6%25%2C s_cov:68.3%25%2C Eval:5.5e-16%2C partial hit],MGA_46
sequence01	MetaGeneAnnotator	CDS	44192	44671	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYLKYLILSIFLQLIFSELISINGVQPNILLLFVIFSSLTISNASLSTILGFLLGFVGELIFYSGTILGISSFTFSLVGFFASKVSNNFVYRNFDFYWIVFTVLGIFIFSIFKYEFYFLSNLKFILSPIYICIYTIFVGLILDRLLSLKNEILNAQN;locus_tag=LOCUS_0460;note=MGA_47
sequence01	MetaGeneAnnotator	CDS	44658	46442	.	+	0	ID=MGA_48;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583753.1;translation=MLKIENRADIFHYRTLYFILFFCITILILRYFQIQVIDFNTHYSKSEVNRVKPRTTYAPRGLILDRDGKILVENFPTYILTVTPYEMKNQDEQFLKISQIINIPVNELEKRFKKYNRGRFLPTIIAKNLTFEEIVKIEEMRLDFPGFQYERFDERLYDSKSKNDHFLGYLREIDKEYIKNLDSEKIYRAGELVGWEGLEKQYENDLRYSKGIEYIEVDTYGREINNLTLENKLAYPGKNLNLTIDSELQDFSRELLGDKPGVIITSNVRTGEILSMVSNPSYDLNIFRGETDSDEWKSIISDKNNPLLNRSISGLYPGGSQLKVITVLNLLEQKKINPEDELLCAGSYSPPGSSLVFNCWKEEGHGVVNLFSAIAQSCNVYFYETVQLLNLDSWVKTARDFGFNDLTKIDLPNEKIGLIPDSKFFTNTYGRWGWSERGVLLNMTLGQGDIQITPIQALKFINIIALSGKDVPILKLNKDKSNSFYTDLGITNDSWRILKNALYDVVNKNSGTGWRAKVEDSSLQSFGKTSTAENSQGEPHAWYIGYFVKNDEIYSLVVLVENGGGGGAVAAPIAGEIIKKIVYNKNLMVSSNAE;locus_tag=LOCUS_0470;EC_number=2.4.1.129;note=WP_012583753.1 penicillin-binding protein 2 (Dictyoglomus turgidum DSM 6724) [pid:35.0%25%2C q_cov:94.3%25%2C s_cov:96.7%25%2C Eval:6.1e-81],MGA_48
sequence01	MetaGeneAnnotator	CDS	46432	47640	.	+	0	ID=MGA_49;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931982.1;translation=MLNKLGKDKKNFINIFISILILTVFSLLTLYSISNNPLSSNSPFIRQLTFIIFSLIIFFIVKDFKIKFIHDNSSIIYILSYILCFIPFLLPKVESTYRWIDFGFFYIQPSEFLKLTTVLIVAKFLSNHHLEVKESRIIIFPTLFTLLSCFIVLQQPDLGTAIIIFAPLIPMLLWSGVNTFTVFLMIAPFITIIAASNLVFFYLWAVVMFIIFLTFEVSLTKKTFLYFANIFAGLLTPIFWNSLAEYQKERILTFLNPDLDPMGSAYHIIQSITAIGSGGFWGKGWQLGSQTQLKFLPVQESDFILSVIAEELGFVGILILMIITFHFIKNLLDVAFKISDYFSSLVIIGFTSIFLSHIFINSAMTIGLLPVKGLPFPFISAGGSFLLLCYLMIGIITSISKN;locus_tag=LOCUS_0480;gene=rodA;note=WP_010931982.1 rod shape-determining protein RodA (Chlorobium tepidum TLS) [pid:31.7%25%2C q_cov:94.8%25%2C s_cov:93.9%25%2C Eval:1.0e-54],MGA_49
sequence01	MetaGeneAnnotator	CDS	47825	48502	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKYGFISERKYILREVIRLKEILFDLDGNSYECSAKSAFLPKNISSSRLQVYFLEKKDLFDDLNHLLYKSKNGRYLLDNELRYFFYSLASIKMLPNLFWYPDIIICNGWTSAFIPFLLNYMKGEDTNLSKIKTIYLAKSNDNEIVLDSKQLNLNGSFKSKLNTNSYNEIGSSSANMTIIIDNEVKVSNDLMKKKGFEGNKNCHILDSNDENFFENFSSLVKSVK;locus_tag=LOCUS_0490;note=MGA_50
sequence01	MetaGeneAnnotator	CDS	48499	49716	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFFINLILLLFISCSKDSIVYTDIENPNNTLRTITLTLDNQKTYQSIPSLAQNSKLFFGNVSGSDNLFSLVQFTLFSGYIPPTSFLDLLADSIQVDSARIFFQTLDTINSSAKLKLFALPVADETIFSDSTNFYSLSEHIDFSNSSIFLNETTLNEIAPLDSVSYDTISFDFKGENLETLKTNLFNTAIYPARTIMLTTENLDQLFTLESNESSREPKMKVWFKAFVNDTTTVDTSILFFADKDISIISPPEITDFDKQLITLNGASGLKSLIHFNLDSISSFNRNAIIKNANLVLNVENRNFEDGTFSVGISTIQDSISNWDYTSFYEPSIDYEDYQSTNVYLNSRNIVDNKVSIPIQSYIQLFKNGAIDNNGLMIFGGSSNSPYDKVSFSVESVEVLYVEP;locus_tag=LOCUS_0500;note=MGA_51
sequence01	MetaGeneAnnotator	CDS	49703	50959	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNRRLILLYIFMSIIHGQSSLNALGYGNFSNKFHASSISIGSSGVLSTFKENISLHNPSTWHNLPFAVLTTSVSYDQGLIENNDSAFFNLSSTSLVVPWRQKLSFGLGFSPLFSRDIIFEDLTNDQFIFTDNDTLNYRRKIISSGGASLAKFSLGYKINEIQSIGFEYGTVLGSSRKSNNLIINDVNHFLQERDYFSGGIVAFFYTQLLENSIGIPITLNTFVSKSLKDIGVENEAYQSFIDLNGNSYHDSSDFPDLGQALIPIKRFSLNEMSIEEFGISFDYKDENRNHFMLELYNWNDTGDHIFSSSIIDSYIESYSKLNIGFVRFGIPYTDDRYDYKAGIFLGDYDLKNVDNVKEIGIGLGIGIQFGLTNNQIDISYNYIKRNNLEFINGNETIQSFSIGLSLGDLWFVKRREM;locus_tag=LOCUS_0510;note=MGA_52
sequence01	MetaGeneAnnotator	CDS	50962	52299	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKFLLLFLSVLLSSSLLQAQCKRGEQLRITNDVEIKVLDCREATRLIYNEGWYPYSIEDEQEDRCPQLVSSAAEYYRNSNWELSAQSYGKLMDLRCDSWNSDWVNPDDSYLYWSIALQNLGKFDESESVLIRAIDELPGNTDLMIRLAYAYKKLDKIDEMIIEYERIMDFGVEDSSLLQDLASAYGSQGRTDEQIAVLKKILDFDPNNTSVQSELANVYENSGEDPLELFKARYNDNPENASFALEYAQKLMDSGELLTAISVLENSLLYNKNNYLVYQTLGKALSENSDFEKSNQVFENLFNLDNSNFRVAIQISSNLMDMDEYQEAYEWSKKALKISGNNAESLSHMGNLFYKAMQNCRGDSFSSSDKIVASLAYQYFELAEKKGNSMYFKQQRWLEENDVLFGYSDWFMTDKEVQATGKVSPTSSCYDWVSESLNKSKDW;locus_tag=LOCUS_0520;note=MGA_53
sequence01	MetaGeneAnnotator	CDS	52302	53588	.	+	0	ID=MGA_54;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC36;translation=MSALKDSDREVYEIILSESNRQNNFLELIASENFTSQSVMEATGSVLTNKYAEGYPGKRYYGGCVHVDEVENLAIERAKKLFNAEYANVQPHSGSSANMGVYLAFLNPGDTILGLDLSHGGHLTHGSKVSFSGQIYNSVTFHVDKNTGLVDFDNLKKIAQEYKPKMIICGASAYPRTIEFEKFRDIADSVGAFLLGDICHNSGIIAAKKHPSPFPFCHVVSTSTHKSLRGPRGGIILLGKDYENPFKIVAPKSGRIKMMSELIDGAVMPGIQGGPLMHVIAGKAVAFKEALSDNFKNYIQSVLDNAKAFEKNFKDLGYNLVSGGTDTHLVLLDLQNKNISGKQAELALDEAGITVNKNMVPFDPRSPFITSGIRIGTPALTTRGMGFDEIKEITKMIDLVINNFDNEKVISSVKNNVQELCNQFPLNL;locus_tag=LOCUS_0530;gene=glyA;EC_number=2.1.2.1;note=Q8KC36 serine hydroxymethyltransferase (Chlorobium tepidum TLS) [pid:61.3%25%2C q_cov:99.1%25%2C s_cov:97.5%25%2C Eval:6.6e-148],MGA_54
sequence01	MetaGeneAnnotator	CDS	53654	54427	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSTFYEISTPTFLKLKHRLSIDYDSSPEEYLEYSEALIQYSYGIIIEKADRIKVESFIDAKPYFSESLEYFLEAKKYIKTALEQKYPDFDNYFSNMNDYAFSYEDIPYLYWLSASIAGTIKSSHGDPQYLSDLPKIYWLISSASKIDEKWNNGALYSALMNYHLSSPIYDTDSQKNALKYFKLAEKESKGMDVSLYVSLAESYAVKIQDKKMFADLLKNALQVEKKSSNQYKSSNKVYKARANWLLSRIDELFFM;locus_tag=LOCUS_0540;note=MGA_55
sequence01	MetaGeneAnnotator	CDS	54436	55413	.	+	0	ID=MGA_56;product=C4-dicarboxylate ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972787.1;translation=MKFIKYFIFALLISSLNAKPIIIKLATLAPEGTPYYNLLLEMGQRWEKETNGKIQLRIYPNGVVGGEKETIRRMRIGQIQGSAMSSIGLAELTKKINAFTLPLAFSDYQDVESAKKVMFDEIHDGLIDSGFKLLFLVDIGWVYWFSKDNITFPQDLKDSKIYTTAGDYVTVELFKKFGFNAVPVSENDILTGLQTGMINSMQTVPILALSSGWSALMPNMLDLKWGAFIGAVIIDNRVWQKISESDRLILEKIALDIGEKYQSTSRSLERKAIDAMKENGMNIITLSPEELLIWNEFKDEITPDVIETFLSEEIYQKVIYSISND;locus_tag=LOCUS_0550;note=WP_010972787.1 C4-dicarboxylate ABC transporter (Agrobacterium fabrum str. C58) [pid:23.0%25%2C q_cov:84.9%25%2C s_cov:85.2%25%2C Eval:3.5e-15],MGA_56
sequence01	MetaGeneAnnotator	CDS	55406	57202	.	+	0	ID=MGA_57;product=TRAP transporter subunit DctM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682335.1;translation=MIDFFKKIENSLIYFLFILVIILPFFEILSRYVNILSIPANQVIVQHGTLWIGFVGAVIAARSNRLLSIVKNPIFNRSDSFNIIRYITHILSASIVLILSTSYFKIIQIGIQYPSFVFPFVTEWFVQLVIPLSLISIWFYLIYLSSSNSKYRLSVFILSILLCLLAYFIPFPTSNVYIFLFFFILLILAVWNGLPIFITLGGFSIIFYLSIPTDWSTNFEILSSISDGAYRIVSSPTISAIPLFTLGGYILSKSNISSRLFNFFKSAFGWFSGSTILIVVFISALFTSLTGGSGVTIIALGGVLYPILINEGYSKKFTLGVLTSCGSLGLLFPPSLPSIIYSISAGVNPINFFKIAFLPAIILVFSVIFYGLLKKPSNSTVINFNYKNFIQCLKIVKWELLIPVIILVSIFSGFSTLVESASLLVLYIILIELFIFKDLTIIDLKKVTVEASKLIGGVLIILGFAMGLTGYLVDAQIPLKILNFAKDFIASPLVFLLALNILLLLAGSLMDIFSAILVIVPLILPLATYYGIDPIHLGIIFISNLELGYITPPVGMNLFLSSYRFDKSLSVVLRSSFPFFLIRLIGLLFITYIPLFFY;locus_tag=LOCUS_0560;note=WP_002682335.1 TRAP transporter subunit DctM (Treponema denticola ATCC 35405) [pid:30.5%25%2C q_cov:98.8%25%2C s_cov:98.9%25%2C Eval:1.9e-74],MGA_57
sequence01	MetaGeneAnnotator	CDS	57224	58159	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTKSILSLILFTQLVFSQGKAGSIFLSINPGARANGMGEANIAIADDSYATYYNPAGLINLSSSNFSFMHTSYLPNLADDMSYDFLSYGSSFRENSSIGGHFTYLNLGDQISTDTDGNTTGSFSSYMYALGLSYAQKINESSSWGVTGKYFYQELAVINSLDASSSNFAIDLGYHAKGFMENPNLNFGAVLSNIGPGVSFADGEEDPLPTKIGLGLAMITLENKGLVAFDLNYELNDQTMVTNLGLEYSVNDNFRLRGGFISDPSGDLNYTTLGMGAILDGFGFDLSYIIGDDLDPHSDMLRFSLNGYF;locus_tag=LOCUS_0570;note=MGA_58
sequence01	MetaGeneAnnotator	CDS	58182	58913	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIYIFVLFLFSCSITNQFNDEIPYKTRFDDGLRFFEEEKYNRAIAQFNIIVERATHTDLGDDALFFLGESYFLSKQYDLALIEFEKLVTRMGFSPYLEKSRWRICESLMALSPNYFHDQDSSLKAIIEIQQFLDDFPNSDYSIEADKLIKELRLRLAQKNMESGYLYVKLKAYDSAIKSFEVVVNDYYDTQFIEDAHSEIIKSLILLDKIDESDKYFDQLMDNPAISSDIKSRVKKLTGKS;locus_tag=LOCUS_0580;note=MGA_59
sequence01	MetaGeneAnnotator	CDS	58915	59496	.	+	0	ID=MGA_60;product=nicotinate-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P54455;translation=MKVCLFGGTFDPPHIGHLLIAQTVIESENFDKFIFVPANLTPNKVNKLFTDPLIRKEMLELAIKDNPNFDLSDYEIKKGDISFTVETIKFFAKEMGLEKENLYFLMGSDTLQDFHNWEQPREIIKYCNILVATRPGFRPSNIPQWVLDSVHFANIPQFEISSSEIRRRWKDNKTIRYMVTREVWEFINQNNLY;locus_tag=LOCUS_0590;gene=nadD;EC_number=2.7.7.18;note=P54455 nicotinate-nucleotide adenylyltransferase (Bacillus subtilis subsp. subtilis str. 168) [pid:35.4%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:9.4e-31],MGA_60
sequence01	MetaGeneAnnotator	CDS	59497	60426	.	+	0	ID=MGA_61;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011070719.1;translation=MLESIFYLILGSIGLYYGSEWLVDSAKLIAKKLKVSDLVIGLTIVSIGTSFPELVVGIISSLNGLQDFVIGNVLGSNIANIGLALSIPAVFIPITIKFYDLFPSLIYNLVACILLISIIGDSVISRNDSFSLIAFFVLYLLFTFFRGKNIDSGQENTDYEVDSSILILSGKFLVGCIILFFSSEIFVNKGAAPLVSLFGFSEKAVGMTIVAIGTSLPELFVTFIALLKKETNISVGNIVGSNVFNILFVLGIIGSINPINIISVSLEIYYGLALLALLGIASFVLGKVNRILGLILLFLYIIFVVIQFS;locus_tag=LOCUS_0600;gene=yrbG;note=WP_011070719.1 sodium:calcium antiporter (Shewanella oneidensis MR-1) [pid:40.3%25%2C q_cov:81.9%25%2C s_cov:79.7%25%2C Eval:6.9e-42],MGA_61
sequence01	MetaGeneAnnotator	CDS	60423	61076	.	+	0	ID=MGA_62;product=putative cell-division ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_268888.1;translation=MISFNKSTFHYSKESGIYEIDLKINSNEFCFLLGPTGSGKSTLMKLLYFDLFPTNGEVEIFGYSSKKINQKNVYKIRRDLGIIFQDYKLIEQRSVFDNIALPLRISGEKRGVIKDLVDEAIELTELKGFENKFPMQLSGGEQQRVCIARAIVKSPKLILADEPTGNLDPASGYRILKILEQIHAEGTAVIMATHNYKLISEKDYRIIELKKGRVVSS;locus_tag=LOCUS_0610;gene=ftsE;note=NP_268888.1 putative cell-division ATP-binding protein (Streptococcus pyogenes M1 GAS) [pid:44.3%25%2C q_cov:92.6%25%2C s_cov:87.4%25%2C Eval:3.3e-49],MGA_62
sequence01	MetaGeneAnnotator	CDS	61073	61930	.	+	0	ID=MGA_63;product=cell division protein FtsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74CA0;translation=MIDKFAFLFSEGIKTLMRNRLANFLCLITIFINFSILGTFFVIGFNTDSYINIFRTKYTFEVFFVQDVDQKSIDIISNALEQSSVVQKIELVDKDDAAEIFNEEFGEDIESLIGYNPLPISLRVNLSKTNFDLDQVQELVNNIQKELFVDEINYRGSFIKDIEDRINLVLFGFLLLVIGILFISIQMISNTIRLSINSRKKFIDILKYNGATPLFTKTPFYIESFILSVCGSAFAFLFVSLVFNFINSYLMLSIRIDNNLWIWMVSFSIIVGFYASSKSLKKFLN;locus_tag=LOCUS_0620;gene=ftsX;note=Q74CA0 cell division protein FtsX (Geobacter sulfurreducens PCA) [pid:21.8%25%2C q_cov:98.2%25%2C s_cov:92.4%25%2C Eval:2.6e-16],MGA_63
sequence01	MetaGeneAnnotator	CDS	61934	62422	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNIIKDKKVSKKNSNSEKSNQNNQIKELEDKYLRLKAEFDNFRKRKEQEVISLLQYEGKHLIKDFITIFDNLNRGIDSYKDESIKSALVLIRDEFSRKLGLNEVTSFGQIGDQFDPNLHEALTVTNEKSKSDDEIVEVFECGFKYKDLIIRHAKVVVNKK;locus_tag=LOCUS_0630;note=Q1WUE9 protein GrpE (Lactobacillus salivarius UCC118) [pid:37.5%25%2C q_cov:80.9%25%2C s_cov:68.7%25%2C Eval:3.0e-20%2C partial hit],MGA_64
sequence01	MetaGeneAnnotator	CDS	62419	63498	.	+	0	ID=MGA_65;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GXF1;translation=MKDFYDILGVSKSSSEAEIKKAYRKIAMKYHPDRNPDNKEAESKFKEAAEAYSVLSDRSKRQKYDQFGHSAFNGMGGQSGFNSMNMEDIFSQFGDIFGGSNPFESFFGGGRSRTQSRRGGDIKVKIEVSFEEIAEGGEKKIKLRRLKVSPQASFNTCSMCGGNGQVTRVTNSFLGQMRSTSICPQCNGYGKQIKNSPSGSDKNGMIKVEETLKIRIPVGVENGNYMTLDGQGHEDINGNAGDLYVFFEEKEHTYFSRYGNDLLIKVIIGYSQAIFGDKITVPTISGQASLSIPAGIQPGQILRLRGKGFPKIGSSQKGDQLIKVQIDIPKNLSKDEKELLQTYYKIEQKKEIKFERFED;locus_tag=LOCUS_0640;gene=dnaJ;note=A6GXF1 chaperone protein DnaJ (Flavobacterium psychrophilum JIP02/86) [pid:43.2%25%2C q_cov:94.7%25%2C s_cov:92.0%25%2C Eval:7.2e-81],MGA_65
sequence01	MetaGeneAnnotator	CDS	63552	64337	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNQKTFNDYIEVIIFVILLLTLLVIFIPNKIWKEEDYYTNESRYRMQTIYNVENFYNILVGNYEEDGSKAISLVNAVRDSLTSDSLFLGDQSISVNGEEFLVNVPRGFDVEYDTTFGLRRVLKETIIDTTVTILMKSEESGLNDTVYVQKKNLFDIQRDPLFVSIVDENTFERVETISYFDRRFRKETSPLNFEFLPDATQLYCPLTGDPYTIQISEDGNSVRISSPIRSYKDRRFGFFSLKSGSHGYIIDGSRSWDN;locus_tag=LOCUS_0650;note=MGA_66
sequence01	MetaGeneAnnotator	CDS	64342	65736	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYFFLDNSSLHLFSRNSSKSISSIAKLNLSKKLLLNINDSKVINEIISDAFKRASDKIDLKENSKAVIILSDDILFHSVHRLNTSNPSKISMKIEEELELKWGKLYNNLFTVYETAKTSQSIIHSVSINHFLREKIKLNLNNNGLSLKQLIPISSIIIDEINTSQIAYINRNQNEIDIIFSNRSGFHYNRLKKEKSGFKRLRNVGSTLIDIKSDDFMKSSTKFIEFNYTKIVEILNSKELESFPILDFSNPKGLQFLKGQMYKKSVEYNPSKNKSFYLSILKNFIAFMVTILFLSQLLKTINDRGFDLDEFSSEEITSFQEVDIVNSTENFALISSQDIIYNFQRMITIEQIDSIQIMNSELLVNNISQDFLSSNTGMINEINKIDLSNLLQSAIEIDSSVNFKVMESTFLSNPSRNIILRFSSIEDGYIFLENIKFFSNIFLKKITFNKDDLLHIYLIYIVE;locus_tag=LOCUS_0660;note=MGA_67
sequence01	MetaGeneAnnotator	CDS	65733	66239	.	+	0	ID=MGA_68;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017073.1;translation=MKILSGSLKNRVINISKNQIFRPTKSIVRKSLFDSLGAIENKSFLDLFSGSGINSFEAFSRGSKNVSLVEIDRNAIKNLKKNILHLDSDSIQIYQRDVFRFLNRCDDYDIIFADPPYGIYDLNKLVTLSLKKLNPGGVFILECSENESLEGYNKIAKFGGSKLLYWNK;locus_tag=LOCUS_0670;EC_number=2.1.1.-;note=WP_011017073.1 methyltransferase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:40.3%25%2C q_cov:89.3%25%2C s_cov:86.8%25%2C Eval:1.8e-18],MGA_68
sequence01	MetaGeneAnnotator	CDS	66236	66727	.	+	0	ID=MGA_69;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q039M3;translation=MKKIVYPGTFDPIHYGHIDITKRASRLFDEVLICVSDNLHKNPLFSHEERAEMIQECFIDIPNVKVFSNPKNLVVKFAQDQGAIAIIRGLRHVSDFELEFQMANVNHEINSDISTILMVSKEKFLHLNSTIIRELAQYSTNLEKYVPSHVADRLMKKVGQKNG;locus_tag=LOCUS_0680;gene=coaD;EC_number=2.7.7.3;note=Q039M3 phosphopantetheine adenylyltransferase (Lactobacillus paracasei ATCC 334) [pid:44.7%25%2C q_cov:96.9%25%2C s_cov:95.2%25%2C Eval:3.6e-34],MGA_69
sequence01	MetaGeneAnnotator	CDS	66720	67982	.	+	0	ID=MGA_70;product=isocitrate dehydrogenase [NADP];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P39126;translation=MADKITIQNGKLNVSNNPIIPFIEGDGIGPDIWKASQRVIDAAVNKAYNGEKSIEWLEIYCGEKAFNLTGEWLPVESLEILRSHLVGIKGPLTTPIGGGIRSLNVALRKELDLYACVRPVRWFKGAPAAILDPNRVDFVLFRENTEDVYAGIEFENGSEGAKAVIDLMGQLGQKQKIRFPETSSIGIKPISKEGSIRLFDAAIQYAIDQNRKSVTIVHKGNIMKFTEGYFKKWTYEHAENNYSDKVFTWAQYDRIAEKDGDKVARNAQRDAIANGKIIIKDVIADAFLQQILLRPDEYDVIATMNLNGDYISDSAAAAVGGIGIAPGANINYKSGHAIFEATHGTAPKYANLDKVNPSSVILSGAMMLRYLGWNHAADLIENGLEKAISNKRVTYDFHRLMEGATLLKCSEFGDEIINNF;locus_tag=LOCUS_0690;gene=icd;EC_number=1.1.1.42;note=P39126 isocitrate dehydrogenase [NADP] (Bacillus subtilis subsp. subtilis str. 168) [pid:67.4%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:1.4e-166],MGA_70
sequence01	MetaGeneAnnotator	CDS	67994	68971	.	+	0	ID=MGA_71;product=GTPase Obg;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJ65;translation=MFIDYAKITLQAGNGGKGAITFHREKYIDKGGPDGGDGGKGGDIILKTNSNLHTLQDIRYKKVYKAQNGLNGGSNKRTGKSGQNLIIEVPCGTLIKDIESKIVLADLVSDNQEVVLCKGGIGGKGNFHFKSSTHQTPRFAQEGILGEKLLVELELKILADVGLVGFPNAGKSTLLSVMTTAKPKIADYPFTTLEPHLGIVKYNDYQSFVIADIPGLIEGASQGKGLGHQFLRHIERNKILLFLIDCNDKSPEKTYNQLLKELGNFNKELTVKPRLILKTKMDSFSQEKDAKSWNKIKEDIWPISSVSGEGLNILKDKIISFLSSS;locus_tag=LOCUS_0700;gene=obg;EC_number=3.6.5.-;note=B5YJ65 GTPase Obg (Thermodesulfovibrio yellowstonii DSM 11347) [pid:52.6%25%2C q_cov:99.1%25%2C s_cov:96.4%25%2C Eval:7.4e-90],MGA_71
sequence01	Aragorn:1.2.38	tRNA	69000	69087	.	+	.	ID=Aragorn_3;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence02	MetaGeneAnnotator	CDS	112	1887	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSTIKSRFLLILFVFGLAIYSLIPSIRFLNLTDDKISQMSSEELDNLSSKALKLGLDLKGGIHIVLEVDLPQLISNLARNKDSKFETFITELDKNYSIQDIDFFDLFEEQVQNSDLKLQRYFSSLGRTNDEIISQLSVESTDALNRIVQIIQNRIDQFGVSEPSIQKQGNSRVVIELAGIDNAERARDLLQSTALLELMIVKDVENTNSLIKQIDLTIDSKNSASTNNNVDGLFSDKENLSSILSTIGSNLAIKISELDKLNNILNEEDVKQILRATNSTLLLSNSSITLSDEFDGEEYLLVYHLYNNAELSGGVIEDAQMKLSQSGVTAGQATVHIDMNGDGSREWARITGANINKRIAIVLDKKVHMAPVIRSQIYGGQTVIEGMGSIQEAEDIAIVLRAGALPVPVSIAEERTVGASLGADSVEQGRLSIAFGLILVVVFMIAYYRLSGVIASFSVLGTLTLLLGVLATLGATLTLPGIAGLILTVGMSIDANVIIFERIKEEIRIGKSVKSAIDSGYAKALSTIVDANITTGIAAAILYQYGTGPIRGFATVLFWGIIVSMFTSIIVSRFIFDFIISRKNIRELSI;locus_tag=LOCUS_0710;note=Q749X5 protein translocase subunit SecD (Geobacter sulfurreducens PCA) [pid:46.1%25%2C q_cov:47.7%25%2C s_cov:52.3%25%2C Eval:7.0e-69%2C partial hit],MGA_74
sequence02	MetaGeneAnnotator	CDS	1884	2804	.	+	0	ID=MGA_75;product=protein-export membrane protein SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1J0;translation=MINLFKDSNYNFMNLKRLGFIFSGLLVILSIFKLFSGIKLGIDFKGGSLIGLHFNEAISIEEVRESLKNLSFEGNNFDLSNEEIKYFGNENDIVIKIKNFENQPDNFPQLIINSLYLTFENKVPSKNEFVLSLGSVSPKVGSELSGQAFWSIISALALILFYVSIRFEFKFAIAAIIALVHDIIITLGIFGFSNYEITLSTIAAFLTIVGYSLNDTIVILDRIRENMKSSGTVMFDSTINKSINQSLSRTLITSLTTLLVIIILLVFGGEIIRPFAFTLLVGVIIGTYSSIFIASSAISSFNNSSK;locus_tag=LOCUS_0720;gene=secF;note=Q2S1J0 protein-export membrane protein SecF (Salinibacter ruber DSM 13855) [pid:35.5%25%2C q_cov:93.8%25%2C s_cov:92.7%25%2C Eval:4.7e-43],MGA_75
sequence02	MetaGeneAnnotator	CDS	2804	3685	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003120268.1;translation=MERKILWPFVALCLIWGSTWYFIKVSLNAGVPPFFGVGLRFLFSGFLFLIYLYYKKLSIPFNKEAIMLYTSFGILNFSLSYGITYWATQYIYSSISSIIWGLFPLFTSLMAHFMIKDQAEERLNKNKVLALLAGFLGVIVMSSGEDIGISSDTFIPIVVLILVIIIAAYPSVLYKKYNKVVGPYQMNAVCQLLTGILMFSLSFILKEDTSLIIWNNELIYATLYLIILGGFISWAIYFWLYQYLTVTQVTYVAIFPPIVAIVLGWIFLEEILSVNEILGAIFILGSSILIYRK;locus_tag=LOCUS_0730;note=WP_003120268.1 hypothetical protein (Pseudomonas aeruginosa PAO1) [pid:19.9%25%2C q_cov:94.2%25%2C s_cov:90.9%25%2C Eval:7.9e-16],MGA_76
sequence02	MetaGeneAnnotator	CDS	3713	4336	.	+	0	ID=MGA_77;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013531909.1;translation=MGKIKTILATGTVTVIPLALTVYVLQFFFKIAISFGGAVSEPLEQFVDANFPGFQLLTSIIGIVIVLISLIIIGFFARNVFFSRIVNWMESFFKKIPLIGIIYSTTRQIMESISGGSNKDSFKKVIYIQYPRKGVWTLGFVTSESTNKQGESFYHLFIPTTPNPTSGFFLIAPKEDVTQSDISVEEGFRMIVSSGMVGSNQNQIVKD;locus_tag=LOCUS_0740;note=WP_013531909.1 membrane protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:34.5%25%2C q_cov:99.0%25%2C s_cov:82.5%25%2C Eval:5.9e-29],MGA_77
sequence02	MetaGeneAnnotator	CDS	4402	4629	.	-	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKVARTGVSKESGYLYYLGKDGNVWRSGMSRGGKGGGNATKVADAGVKREKGYLYFVDKDGDVSRAPMARGRG;locus_tag=LOCUS_0750;note=MGA_78
sequence02	Aragorn:1.2.38	tRNA	4790	4864	.	+	.	ID=Aragorn_4;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence02	MetaGeneAnnotator	CDS	4880	5836	.	-	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIILFSFFLFLSCSSKNLSSNLTLDSPMFFSEIIPETELDSIGFLNRKHQIVVTDKKGKILSYSAMKGELKHSIERPNAFPNGVNIIDDEYILITERDNHQVLVLDSSFNYIGRFGEGDLKSPYGITSYQIEKNKHRVFVTDNFNEGVLSSERIIFWDIIISDENEIVISEGRIFGNTGLYEVESIVADSYFNRLFVAEENTRGESKGSSIIVLDLESGEEIMSEISNFPFKNDAEGIALTGIKEGYIIFTEQSKEDNKFHLFSRSNLSFYKTLFLEDVRYTDGIATAFMHGEWYLYAIDDDKRVAAYKLPQFEN;locus_tag=LOCUS_0760;note=MGA_79
sequence02	MetaGeneAnnotator	CDS	5829	6611	.	-	0	ID=MGA_80;product=outer membrane protein MIP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZXE0;translation=MNKLLEFNMQKQRNILSILVFIILSCNSSHDAPVLSQDKNEDLVTIEDSLSYSLGIRIAQNLNFPEVNTDKVKLGMDDFLSQTPARIDIGRRNSILSDYNRQQAIKEVDSYQVATEEMRELARKNKIAGQEFMEKNKYNDGVLVRKRSGLQYRVLKEGDGPLPDYNSLVSVHYTGRLIDGTIFDSSLKNDKPSQFNLDKVIPGFSQAILTMKVGSKWEVFIPYNLAYGDKGIPGKELGTYVIPPASTLIFEIELIDILND;locus_tag=LOCUS_0770;gene=mip;EC_number=5.2.1.8;note=Q5ZXE0 outer membrane protein MIP (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:37.3%25%2C q_cov:82.7%25%2C s_cov:87.1%25%2C Eval:5.3e-34],MGA_80
sequence02	MetaGeneAnnotator	CDS	6629	7465	.	-	0	ID=MGA_81;product=putative oxidoreductase YoxD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P14802;translation=MNLKDRKVLVTGAAIGIGFATSHLLLKKGAHVIMWDIDLENLQKASIKLNELGFKNFSTFQCDVSNSNEVYQTAKKVNEAIGTVDILINNAGTVYTGYMLDRSDEELEKMIQINFTSMIYTIRAFMPEMLERNFGHIINISSASSLIGAPKLAVYAATKWAVAGLTESLRLEAYKMNRKGVKFSSIHPNFLVKGLFAGTKLNFLGNLLSPGIKSPYTVAKVIINRAIRYGFHSPKIPWIMNQATLLRAILPSSILLRVSNLYGLNNMMDQYEGYNDGR;locus_tag=LOCUS_0780;gene=yoxD;EC_number=1.-.-.-;note=P14802 putative oxidoreductase YoxD (Bacillus subtilis subsp. subtilis str. 168) [pid:35.7%25%2C q_cov:81.3%25%2C s_cov:94.1%25%2C Eval:8.3e-28],MGA_81
sequence02	MetaGeneAnnotator	CDS	7570	10791	.	-	0	ID=MGA_82;product=cell envelope biogenesis protein OmpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765900.1;translation=MKKNINRFMVLVSIFSVLIAQGITTAELSGNISDSSNSALEGANIIAVHEPTGTTYGAISRDGGYYNIPNMKVGGPYSVTVSYIGYQNETESNLTLSLGSSSMLNFSLQVDSISLSGVDVIGEIDDVMNGNRTGAATYVGSDQVGVLPSIKRSTRDLTRLDPRSDGNFSFGGRNWLYNSISLDGSYFNNPFGLDDPAPGGQTNSEPVSLDAVEQVQVSIAPFDVREGGFTGAGINTVTKSGTNEFKSSIYTYTRNENLIGNKVGSQKVFSSPSLQYSQSGVSVSGPIIKNKLFFFVNFENEHRADPGSNYRADGTSRVSSSVMDTISARLKSEYNYDTGPYQDYNHNTDNVKMLAKLDWNIDEKNNLSFRMNTLDASRDLHPHPFVLSYNNTGRGPNASSLPFRNSGYEINNELTSYALETNSMIGSNMANRFFISKNIFRDYRAPFSEPFPTIEIGEAGVTYTTAGHEPFSIHNILDQDVLQVSNSLTYYSGQHAITAGFNYENFKFFNSFNIFRNGVFFLDASWAQFLGGTTFSSIDAFLDSTSPNNENQSDFYGMVGSGPYKGEKIDVSQMSYYIQDKFAVNSNLNVTAGVRVDIPKYNNKPVDNPFLEGLTLLDENDRPEVLEQDKLPDAKALYSPRVGFNYSNDDRSMQLRGGFGVFTGRLPFVWIGNIFSNPGNNPNLYAVGDATWNPDHVTDDGSGRKVYEGEISILQQTYDVNAMVSDFKWPQVQTLNLAIDKKLSNGLLGTLELIHSTDKNAIYMRNADLVTPVRQLSDGRPYYGGVGSAELNSFYPGSGEGVYVIDNIDEGSSLTLSAQLRGDYKGVKWSTSYTYLNAENNLQSTEIASVLYSSQPVQGDPNKPGLAPSQFGMKHRIIGSATYRHEWNDSRATTLGLFLEIGEGNPFIYSGGNRYSHIYSGDVNGDGFGGNDLIYIPRDQGDINLTDPTQWSALNAFIEQDPYLSENRGKIAKRNGLLNPWFNNIDLKINNEFLLSERKVEVSFDIMNLANLLNSEWGVRKIANPLALSPLTLDSWNAAGEPVFSFNGVEKTFVDDFSEFSRWRMQIGVRISF;locus_tag=LOCUS_0790;note=WP_008765900.1 cell envelope biogenesis protein OmpA (Bacteroides thetaiotaomicron VPI-5482) [pid:31.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-143],MGA_82
sequence02	MetaGeneAnnotator	CDS	10898	11833	.	-	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000812250.1;translation=MLEIYTVLGFILAGYSVVANDSLQTLGTWINSNKIIPWYFLWIFASLILALTMLHGYFSGDLSHGRLSSIPYIEPNFWHLLAPISLIILTRNGIPVSTSFLVLSAFASSLVVQKMLIKSIVGYAVAAIVSYVLWSLLSRFIDESKKPAASDTKWRIAQWISTGFLWTMWLQQDFSNIAVFLPRQISFNAVLMIILFFVIMLGYVFKSGGGKIQNLVIEKTSTKFVRSATIIDLVYAFLLLYFKIYNNIPMSTTFVFVGLLAGRELALHSSFMTKKGRIKKVFPMIGRDFLRLVIGITVSVALIITIQYFNN;locus_tag=LOCUS_0800;note=WP_000812250.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:36.2%25%2C q_cov:94.9%25%2C s_cov:82.9%25%2C Eval:1.8e-50],MGA_83
sequence02	Aragorn:1.2.38	tRNA	11879	11952	.	-	.	ID=Aragorn_5;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence02	MetaGeneAnnotator	CDS	11999	13855	.	-	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVIPTTGLFWGILCLYVFLVLGAGLFFARNNKSTEDFFFGGRRFSWWLIGMSMLATGVGSHSFAKYAAKGFEYGFSSTMTYMNDWFFMPLLLFGWIPIIYYMKVNSIPEYFERRFNSTVRNLSTFTMLLYLIGYIGIGLLALANLLQPILGWQIQTIIIIVAIISGTYVSLGGQTAIIFTDFLQGVILLFAGLLIFGLGISYLGGFDLFWDSLSLTNKLPLADFNSPPDFNFVGIFWQDGVVGSVGFAFMNQAVIMRFLASRSVAHARRATMMNVLVFLPIGTLAVSNSGWIGRAIANAFPDVIAESTNPNGIFTIVGSLVANSEPIFAFLVASVVAALMSSLDSQINASAAVAVNDVYTPLAKNPSEKTKLRISMFTSAFVTFIGIQAAFIFSQYGTIYEAHGAFHAIVTPPMVTVIFFGIFWQRFSSRAAIMTFVLGSIFIVLGEMYPYELITPFAHGTEYIADRPYSYIKALYNMVACSSIAIVVTFLSKKPIDYSKIKGLTLWTIRDGQEYFKGSKVNSNKGSEIRFSASLMEIDEKLEGKTVCLPEKYSNQLKGEIGDIIYISDTRWYLGGLKSTHAILGKVSDSDKILISQEVHDHAQFDFNRKIFIELEG;locus_tag=LOCUS_0810;note=WP_005422351.1 transporter (Vibrio fischeri ES114) [pid:22.6%25%2C q_cov:71.5%25%2C s_cov:85.3%25%2C Eval:1.1e-32%2C partial hit],MGA_84
sequence02	MetaGeneAnnotator	CDS	14133	14630	.	-	0	ID=MGA_85;product=hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249819.1;translation=MESNKQRLWAPWKMEYVENKNSSQKIFTDLPNANNDEENLILFRGEYSFIIMNRYPYNNGHLMIVPFREVNSIDLLEDKELHEIISLSKESVKILKEILNCDGFNLGANTGYGSGASIDQHLHFHVVPRWKSDTSFMPVVGNTRVIHQSLSDTYSILKPLFNKLR;locus_tag=LOCUS_0820;note=WP_011249819.1 hydrolase (Thermococcus kodakarensis KOD1) [pid:49.0%25%2C q_cov:95.2%25%2C s_cov:96.3%25%2C Eval:4.0e-44],MGA_85
sequence02	MetaGeneAnnotator	CDS	14630	14896	.	-	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKKNIFQKQIFQDLIDLSDKFDFRVIHDKGNFSGDHCLLETKNYVVLNKHHPLEQKIHILVTYYNNFDLEKIYLKPRIRKFLENYS;locus_tag=LOCUS_0830;note=MGA_86
sequence02	MetaGeneAnnotator	CDS	14898	15296	.	-	0	ID=MGA_87;product=FAD synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868432.1;translation=MIVVAVSGYFDPIHVGHIEYLKLAKQLGDKLVVIVNNDFQARIKKGKSFMNERDRVEIVASLKCVDEVFLSIDRDLSVCKSLEFIQPNIFANGGDRKLDEIPETRIMKKYGIKMVDGLGIKIRSSSDLTGIK;locus_tag=LOCUS_0840;note=WP_010868432.1 FAD synthase (Pyrococcus abyssi GE5) [pid:35.1%25%2C q_cov:85.6%25%2C s_cov:76.4%25%2C Eval:1.0e-13],MGA_87
sequence02	MetaGeneAnnotator	CDS	15306	16328	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKNFRLFVFLFFISCASVIPPSGGPEDVTPPKLVLTEPENFTNISEGQIIKLNFSEFLSEDSIRKSVSIYPMLNEILDIQFSGNRFEIKIPPLNKDESSYFLIIDKSLKDENNVSLDETIIIPLTSESSFTKNYLAGSLYGDNDNISILLWNKKVNFNEEFLPSPYLVLKNVSSFSVPSLPIGEYTVAAIKNYTPFKKLEDNNLYFSFKNYLEMDNRSIDNVNIFIPSVSNSEKSTSIDQGTKNSELGILRIKKPDNLSLPYIMLKNNQKELFFPLKDNETIDVPEGVYQLFIFDDLDKNQKISFGNLENSFGEYFIAFNDSITIRANWELDISNISY;locus_tag=LOCUS_0850;note=WP_011964514.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:21.4%25%2C q_cov:71.5%25%2C s_cov:49.2%25%2C Eval:1.6e-10%2C partial hit],MGA_88
sequence02	MetaGeneAnnotator	CDS	16309	16761	.	-	0	ID=MGA_89;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439443.1;translation=MIKEGNRAPDFSLLNQNSERVTLSSFLGEKVLIWFFPKASTSGCTLEGLGFKDKIDIFKSKKINVIGISKDSVKAQKNFCEKNEFPFDILSDPECDVIKNYGAWVLKKMYGREYWGINRISFLINEVGEIEKIFHSVNTKSHANDVLEEF;locus_tag=LOCUS_0860;gene=bcp;EC_number=1.11.1.15;note=WP_003439443.1 peroxiredoxin (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:41.9%25%2C q_cov:98.7%25%2C s_cov:96.1%25%2C Eval:1.4e-31],MGA_89
sequence02	MetaGeneAnnotator	CDS	16754	17881	.	-	0	ID=MGA_90;product=queuine tRNA-ribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2N5;translation=MKFSVTHQDTQSLARICNIQTDHSTIETPVFMPVGTHGVVKTLSPNELYDLNTNIMLSNTYHLYLRPGTETIKKAGGLHKFINWNKSILTDSGGYQVFSLSNLNKIEKAGVIFQSHIDGSKHFFSPRVSMEVQRILGSDIIMAFDYCPPANCSLKELRLASSYTEQWTKEAFNYLKSSNSLYDHQQIMFPIIQGGINLEERRKCLDQMLPYAECGLAIGGLSVGEKKEPMLDIVEFLAKEMPNNQPRYLMGVGKPTDLVKSILRGIDMFDCVLPARNARNGQIFTHDETINIHNSKYKNDHEPIDVKSNISFAKNFSKAYLRHLFKVNEMFGFRIATMINISYYFDLIEEIKYQIKENTFLNWSKEYLNKFENND;locus_tag=LOCUS_0870;gene=tgt;EC_number=2.4.2.29;note=B8E2N5 queuine tRNA-ribosyltransferase (Dictyoglomus turgidum DSM 6724) [pid:46.4%25%2C q_cov:100.0%25%2C s_cov:95.9%25%2C Eval:1.3e-96],MGA_90
sequence02	MetaGeneAnnotator	CDS	17884	20997	.	-	0	ID=MGA_91;product=peptidase S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405100.1;translation=MKKLSLSILFISVIFGQYFGQNKVQYKNFDWEYIVSPNFNIYYYGDNKDLAIYTSKIAEKSIDQIGKHLRWNNNRPIKIIVYNSHNDFQQTNVVDSYMSEGVGGVTELFKNRIVIPFEGSYEQFKHVVHHELVHAAINDLAYGGNAQGLISGRIQLQIPLWANEGLAEFLSVNWDSNSEMVMRDLSIEDNLPSIQQLNYSILAYKGGQSVWRYISNKYGREKIGEIFQQMRRTQNAEKGFQNALGVDFEQLTENWHDYLKKEYWPEIAVKEKVENIGTKITDRSKSFNFYNISPSFSPDGSKIAYFSDKAGYMDLVITNSSGTKREILIRGNTTPDLEELKWLQPGISWSPDGSKIVFASKSGKEDAIIIVDVNSKDYTKIPIDLDGIFTTSWHPKEDIILFAGHYKDRSDLYIYNIQSKKLVNLTNDIFSDTNPSWSPDGSNIIFSSDRNSFLKNNSSIEKIASFQNDIFILNYISKEIVEVTKTDFNEDFPIFSSTNKIYFTSDQNGVSNIYQHELNSNKFEPITNVLTGIQQFDYNPISEKIVMSGYNKRGWDLFLLNKIETIDSEALQNANYLSNKYDDEDFEDLRFASDNQTLQASQDYSRFVFAREYNKELSEENLTKTETVIDSLRISESYDSQKYITDFSIDYVATSASIDNLFGTRALAYFSWSDVLGDQRISLGSNLVMNFENSDIQLSYAFLKNRTNYYALLFQQANTFGLGYSLLYDYYGQLRDYGVALYAQYPFSKFSRIDYGATLRGVEYNIKQFDIYTYKTSTYYTEKLNALIPMFSYVFDNSSNTYTGPNDGLRYYFTFQASPKLGQDSISFNTYKFDIRKYFKINREYSFATRLMFGSSAGESPQKFFLGGNSQLTIFSDTQTEGQDDYGYYADRILDIENSGILEDVYFSEYVFPIRGALYRERVGKNVAIMNLEFRFPFVNYVDVGFPAPIRFGNIFGHLFLDIGAAWDNNDELSDSFIIQNKYGLSDPKSSAIIKTFGIGAKIFTPWALMRIDTAWDIYPSGGYSKPQYIISFGYDW;locus_tag=LOCUS_0880;note=WP_011405100.1 peptidase S9 (Salinibacter ruber DSM 13855) [pid:26.1%25%2C q_cov:92.7%25%2C s_cov:88.2%25%2C Eval:1.1e-75],MGA_91
sequence02	MetaGeneAnnotator	CDS	21076	21819	.	+	0	ID=MGA_92;product=UDP-2%2C3-diacylglucosamine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008767009.1;translation=MNEKIYFFADVHFKGTSSEEEEKKFLKFQHFIKQIIQNNIKCSVYVIGDLFDYYFEKKTLIANKNYKRVFLEFDKLKKHNIQSYFIAGNHDFWIGKEFKKHFTDCFLEDHIITKNNINFYLTHGDGILSWDRKYRILKKIIRSRIFIILYSLLPGFIATKVGKTISEKRKDSHKLDNQVLGKIQLELKEFSAKKWQEGNDWVIMGHYHHLFQFSNNNGNGLLILDDCDENQFNYAVFDGKNLLLEKI;locus_tag=LOCUS_0890;note=WP_008767009.1 UDP-2%2C3-diacylglucosamine hydrolase (Bacteroides thetaiotaomicron VPI-5482) [pid:29.0%25%2C q_cov:98.8%25%2C s_cov:96.5%25%2C Eval:1.6e-21],MGA_92
sequence02	MetaGeneAnnotator	CDS	21816	22736	.	-	0	ID=MGA_93;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KDE2;translation=MNLRHCIKVDDFSKSEIFELFEIASEVKKKFRNKENFKPFQDLSLAMIFAKPSARTRVSFETGFSWMGGHAIYLAPQDIGLGKRETASDLAQLFSRYNDMIMARVFSHNDILDFEKNATVPVINGLTDYNHPCQILTDIFTIWELKKSNFDHLKIVYIGDGNNIVNSWLRLSSILPIEFISISPEGFYPDNTTVDLAKNSGISSIKISNSIDDVKNSDVVYTDVWASMGQKDEIDERIKSFSSYQVNSKLVSTAKPDYLFMHCLPAERGREVTNDVIDSKNSVVFEQAENRLHIQNAIMLKISGKI;locus_tag=LOCUS_0900;gene=argF;EC_number=2.1.3.3;note=Q8KDE2 ornithine carbamoyltransferase (Chlorobium tepidum TLS) [pid:46.9%25%2C q_cov:94.1%25%2C s_cov:86.1%25%2C Eval:7.7e-78],MGA_93
sequence02	MetaGeneAnnotator	CDS	22733	24025	.	-	0	ID=MGA_94;product=RNA polymerase sigma-54 factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964339.1;translation=MKKISPKIRQKLKIVPNQILQSSILELSNQEIESVVKEELEKNPVLEELSTSTSFSKENYDSLFQSQDEYDSFFSNIPQEDEAEDFLIKQINESILSESEKNIAKEILFNLDRKGFLEIEIELLADNLNISIETLELVRNFIKENLNPRGIACLDLKEYLLFQIGDENSLSVQIIYNYFEDFLKQNFNFIQSKTNSNPERFLEAIELIKSKDLQPLKDSIVKHEIIIPDILIQLNKDYQWVVVENDKIMQKYKISSDYLNAATLNKLSKNEFSFVSKNIDKAKLIFDSIQYRFFILKIITEQILIIQDLYLRGDQKYPSPMKMEDIALSLDIDISTVSRAIKNKYFDSPIGIISFKDLFGSGIIKNTEIVSVEVLKDDLIFIINNEDKSNPYNDAELKDKLDKKGYDISRRTIVKYRQLLDIKNANERRI;locus_tag=LOCUS_0910;gene=rpoN;note=WP_011964339.1 RNA polymerase sigma-54 factor (Flavobacterium psychrophilum JIP02/86) [pid:28.7%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:9.3e-41],MGA_94
sequence02	MetaGeneAnnotator	CDS	24025	24753	.	-	0	ID=MGA_95;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016586.1;translation=MSKTLTASKLIKNYGKKTIVNEVDIQLSKGEVVGLLGPNGAGKTTTFYMISGLILPSSGKIMLGNQDITFKPMYLRARMGIGYLAQEPSIFSKLNVEDNLKIVLESFYPNRSELNLTINNLLEQFNISSIRKNLGGTLSGGERRRVEIARTLALNPDFVLLDEPFAGVDPIAVEDIQQMIISLKKQNIGILITDHNVRETLSITDRSYLLNDGKILFAGNAKELSKNEEVRRLYLGKNFKLS;locus_tag=LOCUS_0920;note=WP_011016586.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:60.1%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:4.0e-81],MGA_95
sequence02	MetaGeneAnnotator	CDS	24746	25249	.	-	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVIIALFLISCSEIREVKNSNTPINVQESSSVEITITDKGEISSLVKSDLLIQNDKESFMRLNGNVQIILFENKNLSSITSCDSAFVDQEKNIIKAFGNIQVKGIEEKFLFCQTMEWNNDSNKIISDSDVLFITSKDTLYGNYFESDIDLSNWILRNPKGVINNE;locus_tag=LOCUS_0930;note=MGA_96
sequence02	MetaGeneAnnotator	CDS	25246	25776	.	-	0	ID=MGA_97;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881425.1;translation=MLNKLKNIKMLICDVDGILTDGKFIIDSDGRESKMFHALDGVGFVMLRMLNLNIITVWITGREAYSTQIRADQLQIDELYNGVIRKIDAYNELKEKYNLNDNEICFIGDDIIDLPILEKVGCPISVPNAPEYVKNASIYVTQKHGGEGAVREVIDLIIQSKGDFENHLNSLIDELK;locus_tag=LOCUS_0940;note=WP_010881425.1 haloacid dehalogenase (Aquifex aeolicus VF5) [pid:42.2%25%2C q_cov:91.5%25%2C s_cov:97.5%25%2C Eval:3.5e-36],MGA_97
sequence02	MetaGeneAnnotator	CDS	25766	26587	.	-	0	ID=MGA_98;product=2-dehydro-3-deoxyphosphooctonate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YH30;translation=MNIIKNNSILFGGNSLPFIGGPCVIESKEHSLSMAKEIKAITDKINIPYIFKTSFDKANRTSINSYRGVDLSTAIEIFQSIKKEYSLPILTDVHTPEQAEKISDFVDILQIPAFLCRQTDLLVAAGKTGKIINVKKGQFLSPRKISNIIEKIESTGNKNILITERGSSFGLDSLVVDMKSIPIMQSFGYPVIFDASHSIQAPGLMESTTGGEREFIPTLVNAAVASGCDGLFIEVHDNVEQALSDSSSQWPLNKLETLLKSALHFRKAYLDVK;locus_tag=LOCUS_0950;gene=kdsA;EC_number=2.5.1.55;note=B5YH30 2-dehydro-3-deoxyphosphooctonate aldolase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:54.4%25%2C q_cov:91.6%25%2C s_cov:92.3%25%2C Eval:3.3e-74],MGA_98
sequence02	MetaGeneAnnotator	CDS	26596	27273	.	-	0	ID=MGA_99;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGT5;translation=MIVGVIPARIGSTRFPRKLLYQIEGKSVIEHVFSQAKLSKKINKLIIATDSNEIASLFNPSDVVLTKTSHQSGTDRVGEAIQNLDYDIVVNIQGDEPKIDPELIDRLIESLEGSQAGMASLASTIIEDKDFEDPNVVKVLIDNYNYAIKFYRETDKKNNLLRHVGIYAFKKEIFEKFIKLSMTKNEIKLKLEQLRAMDNRIPIKIVVSDFKFRSIDVEEDLIYYQ;locus_tag=LOCUS_0960;gene=kdsB;EC_number=2.7.7.38;note=B5YGT5 3-deoxy-manno-octulosonate cytidylyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:37.2%25%2C q_cov:96.4%25%2C s_cov:93.7%25%2C Eval:6.2e-38],MGA_99
sequence02	MetaGeneAnnotator	CDS	27270	27578	.	-	0	ID=MGA_100;product=glutamyl-tRNA(Gln) amidotransferase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WY94;translation=MSEAKLSKKEIQKIANLSKLNLSEEELKKYTKELNEIVQYMNLLNEVDTEGVEPMFNVHGHKTLVVADDPLDPIKIESLQKIFPKSLDGYIKIPQVVKKEKK;locus_tag=LOCUS_0970;gene=gatC;EC_number=6.3.5.-;note=Q9WY94 glutamyl-tRNA(Gln) amidotransferase subunit C (Thermotoga maritima MSB8) [pid:34.8%25%2C q_cov:90.2%25%2C s_cov:95.8%25%2C Eval:1.2e-09],MGA_100
sequence02	MetaGeneAnnotator	CDS	27617	28882	.	-	0	ID=MGA_101;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933019.1;translation=MNRIFNYLSDAIGGVLYYFSQTKLRTALTLLGITVGVSSIIAIMTVLATFQRATDGLVSEMKTNVFYITKDNPTEISFGVRHSGARNKPSITWTEYEQLKRSLTLTTNMSAVVAEEPSDRTISFEGEELKNRLSSLWGSDGDILSLYKYDIIDGRSIRQIDLDNSSRVAMIGYDVKEELFPFSNPVGQTIKIDNIPFEVICVLSPKGKVLGQSMDSTIGIPISTYLKYFGGRSWRRADLQLILESESMETLDEASDEAIGVFRSIRKIPPGAENNFYLATNDQLQETFGDFTSYLKMFIGLVAGISLLVAGIGIANIMLVSLTERIKEIGVRKALGARKSDIFLQFLIEASLISIIGGIVGIILGVSFGNIVAYFLQQDPLIPFNWIFYSLGICALMGIIFGLYPALKASRLNPIDSMRYE;locus_tag=LOCUS_0980;note=WP_010933019.1 ABC transporter (Chlorobium tepidum TLS) [pid:35.3%25%2C q_cov:94.3%25%2C s_cov:94.7%25%2C Eval:1.1e-62],MGA_101
sequence02	MetaGeneAnnotator	CDS	28875	30089	.	-	0	ID=MGA_102;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405554.1;translation=MNNIFQNIAIGLRAIKSNPTRVFLTSLGLTIGIFTVSIITAGVSSIDKEFEKSMAYYGNDKLYVSTWPWSFNFDWWKYRNRPRIEEDNLQYITQYSQYIDDVSLRKTSWIRGSYGNTASWLQINGVYPSYQDMLSGTKIENGRFFSQNEWDLQRRVIIVGATVRDGFFDGQDPIGKTIRLGGVSFEVIGELKKQGMGMVPGGTLDNLVIMPSTTFKRILTRWGFDELVLKTRPEQMAIAKEEAEMIMRVARKLKPDEENNFAVNSADAYKQQFDSLKIAIAGVGFLVTGISLIVSAIGIMNVMFVSVKERTKEIGLRKAMGATSRNILVQFLSEAVTISIIGGLAGIILVKLLTLALASFLPVSFDLLLIFYTFLVCVFIGITAGMIPARNAASLNPIDALRHE;locus_tag=LOCUS_0990;gene=ybjZ;note=WP_011405554.1 ABC transporter ATP-binding protein (Salinibacter ruber DSM 13855) [pid:37.5%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:6.7e-70],MGA_102
sequence02	MetaGeneAnnotator	CDS	30082	30765	.	-	0	ID=MGA_103;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405550.1;translation=MNKKEIISIESISKIYHLGDNVVKALDNVSLKIYENDFISIMGPSGSGKSTLMNIIGCLDVPSKGTYKLDNIEIDKMTDSDLAKIRNQKIGFVFQTFNLLPKLNAVQNVEVPLIYSSLSKSERIAKAKNALNSVGLGDRFDHKPNELSGGQRQRVAIARALVNSPSIILADEPTGNLDSKSGLEILKFFDELHKAGNTIIVVTHEDSVANRAKRKVEIFDGKISKDE;locus_tag=LOCUS_1000;note=WP_011405550.1 ABC transporter ATP-binding protein (Salinibacter ruber DSM 13855) [pid:56.1%25%2C q_cov:97.4%25%2C s_cov:77.0%25%2C Eval:3.9e-72],MGA_103
sequence02	MetaGeneAnnotator	CDS	30758	31999	.	-	0	ID=MGA_104;product=RND transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933016.1;translation=MLKNRKIQIGLVAALLIIAALFLSSRNKEELIEVITISVERKNLSSKVVADGILQPETEVKLSANNTTYITDIAVKEGDKVSKGDFLMSLDEEQQRAQTEASRASLDAAKVQLEQRASQQKRQNKLYEQGLISDQEMEATNSSYASALSAFNNAKSRLIMDEDSLSKLRLIAPQDGTITFVEGEIGDLAQGGMFNPRVLIKLADLSKMEVNVNVNENDIAGIEINDSAIVEVDAFKDKKFKGIVKEVAYASTTASGGSQQQVTNFEVKIQMLEVVDGMRPGMSATVEIITEERNGALSIPIQSLTTPRPKPTKEKKSRVKVETSNSQRPNFSMMRGGANQPKSTVVFVYADDKVEQRNVKVGIVGERDYEVLEGLEEGEQVVSGSFVAISRELYDGAKVQLKESQNFNRRTSE;locus_tag=LOCUS_1010;note=WP_010933016.1 RND transporter (Chlorobium tepidum TLS) [pid:33.2%25%2C q_cov:97.8%25%2C s_cov:97.9%25%2C Eval:7.9e-50],MGA_104
sequence02	MetaGeneAnnotator	CDS	32004	33287	.	-	0	ID=MGA_105;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405552.1;translation=MKIIKLFILLSIIINPAFTQSLSIDECVRIALDNKSSIRRAEQDVEIAKLNQYSSLASILPSVSVNNSFRETTYGNSSDMAEQYSAGISLSQNVFNFGNNLQDVRGGRNNFLITKLQERGSRANIIFNVYSSYYQFLKDSELLEIANKDFSLSEKQLELVEEQYNLGAVSKTDFLKASVRFGTAKSNLLSRKLNKDNSFNKLLNSMGLIDSDISIQLPKKVDIFFVVPSYQEALALMISNNPDLNILDRQIVSSKINVQQSWAGMLPSVRLSVGMNAVSDASISSEFFNDNYIKNTNLTLSIPIFTGTRNRNNVQISKIRLNQSESKYSSVLKDSKVDLYQLINTLNNFQEIIPIQEEVLKSAEEDLKLAQNKYELGSASILELLDAQLASIQASSSLISTKYDAAIQVANLDRLLGTLDKKYQQGE;locus_tag=LOCUS_1020;note=WP_011405552.1 transporter (Salinibacter ruber DSM 13855) [pid:20.1%25%2C q_cov:94.6%25%2C s_cov:90.0%25%2C Eval:1.2e-21],MGA_105
sequence02	MetaGeneAnnotator	CDS	33366	34790	.	-	0	ID=MGA_106;product=tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108074.1;translation=MTKIIDILKKNQNLESISRTIAELSNSLNVPAYLVGGCVRDLIVDPLDSSFDVDIMVEGDGIDFARKLADKLGVKTIVPFENFNTAKIPYKKFEIEVASARSEEYDQFSRKPKVSLTSVEEDLIRRDFTVNAMAISLFNDYFGSLIDPFNGLKDLKNQILRTPLSDPNQTFIDDPLRMIRAAYFASKLQMQIDIKSIEAITNNRTRIEIVSQERITNEILKILSTSKPSIGFIFLQEVGLLELIFPEIDVMKGLDQNPEYHHKDIFYHTLDVVDNIVDSTSKIDLRLAALVHDIGKPLTRRIHKQKGYTFHGHDDVGARMLKEICKRMKISNKTRDYITKLTALHLRPIALAGKEVTDSAIRRLIVEAGNEIEDLMKLCRADVTTKNINNMVKYMNNFQRVENRISEVIETDKLRNFQSPVSGEEIMKLFSLKPGKKVGEIKSMVEEAILNGEIKNSYSAGIEFLSQVKKNKKC;locus_tag=LOCUS_1030;note=WP_011108074.1 tRNA nucleotidyltransferase (Bacteroides thetaiotaomicron VPI-5482) [pid:46.8%25%2C q_cov:95.1%25%2C s_cov:89.6%25%2C Eval:7.1e-114],MGA_106
sequence02	MetaGeneAnnotator	CDS	34819	35661	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKLQTLFCCLICVSFLFGQFKTVNVEFDDRLLKNDEKNQLFFLKSNIKNFFEISSWNNDFSDLDLLIDVQIIFEGSSISGSDQTFGVQSLYTNNNDIHFFDKGAQFSLSQTNNLSLDDVNSDPLSVLLSYYGNLILGAELDSWEPLGGSIHYEKARLIAVKALGSNFPRGWEQRLQNVNLLSENNGLRKLRYSSYALYEYFSLGEIDQCTIILEEIISNLKEIAMIYNQENYTNSFMNYHGIKIGDIMQKLGQKELLIQLSYYDPTRRNIYENFLNDI;locus_tag=LOCUS_1040;note=MGA_107
sequence02	MetaGeneAnnotator	CDS	35634	36653	.	-	0	ID=MGA_108;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963200.1;translation=MKLSIVIPHMNNRKLLYACINSIKKNILLEDYEIIVVNNGPINDSVNTLVNDFNKVILINNTKNYGFSKACNIGASNASGELLLFLNNDTIHSKGWIEKLILFLDNDSSVGAIQPKIRNIQNENSFDYAGASGGFIDIYGFPFCRGRIFESIELDTKQYDNPMKIFWASGAALMTYKNLFEELNGFDEDYFAYMEEIDFCWRLQKKGFEVWVDPSSIIYHHGKMTIKKGSIKSNFLNHRNSWILFLKNSDTFKFGARIINRFILDILALVYSIFRLDWSRFLAIIFSFCSVIVNFPKIMIHRKEMLKNQKISMYQGSIAIDYFLFFKRKFSQISFKKFS;locus_tag=LOCUS_1050;EC_number=2.4.1.-;note=WP_011963200.1 glycosyl transferase family 2 (Flavobacterium psychrophilum JIP02/86) [pid:38.5%25%2C q_cov:84.4%25%2C s_cov:85.3%25%2C Eval:2.4e-54],MGA_108
sequence02	MetaGeneAnnotator	CDS	36650	39427	.	-	0	ID=MGA_109;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933665.1;translation=MAPTVSFWDTGEFIATSHIMGIPHPPGSPLFLLLGKIFSLIPISHDIAYRVNLLSVISSSLTISVLFLINNQVLDRIGCKNIIEKFGSSFIASLTFAFSHSHWFNSVETEVYALSGLFTALVVYLSFLLTRKGRTNNQNRYIIFIIYLMGLATGLHLLNLLTIPFLIMMIYFSRNQDAKLKQIFNITLLSIVIFFFFQNFVVRGVPFLVSFAGYSGMFFLLFSLCVLTYYFLKKKNILWAALFSGILLILIGYSSYSTIIIRSIQNPAIDENNPETITSLISYLNRDQYGEMNILPRKFDDIPSSVEVSGLPLNGQEFSFEQKIQYAFYNVPNQLEFFWNYQIKKMYIRYFLWQFAGKGDSTDPLVSSMGANSNEDGVNWIQFGLPLGLLFGLLGIYFHFRRNKLDATAVMILFLMTGVAITIYLNQENPQARERDYSYVASFMTFAIWISVGISAFIELIKKFFISKNEISVFRNIFLFLLLLIIPMRMLIANFDEHNRKGNYIAWDMAYNILQTCDENAILFTNGDNDTFPLWYLQFVEKIRTDVTIVNLSLLNTPWYIEQLKRENSKKQFIQMSDTEIQKIDFIRWEKKLIEVNVPKDENNPSGRIEWELAPTYLNAALRVQDLMVLRIINDNDWQRPIYFAVTVSPTSLLNLDDYLQMEGLAYRLMNNNKEVLNKKKMNDHYLNSIAGLEWTKNFSNNKDFYKNISKEKQSGYLFRNLANPGVYIDPQLGRLVQNYRTGYVRLSIAYYLDGENNQAEQILLDMDYKMPSSVIPIFSKELQYQISQLYNALGNAEQSKYHLDELVQNKDLRIKDYLLYGRTYIQLYQDYSSALSLFETIYRNFEIAENIIKSRGIKKTKLTKEDWLEWQENTPEVVYLLYLSYKELEKYDDGIRLLEGWLKRNPQDLEAQNLLDQLVELSQS;locus_tag=LOCUS_1060;note=WP_010933665.1 membrane protein (Chlorobium tepidum TLS) [pid:36.0%25%2C q_cov:81.0%25%2C s_cov:81.8%25%2C Eval:1.4e-127],MGA_109
sequence02	MetaGeneAnnotator	CDS	39489	39806	.	-	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESNQYTEKQLFDSLISQTVYGIWIALGKIQNPMTKESSVDLTSATIQIDMLDMIKNRMDASLSAEEKVYLSKVLSELKMNYIEVEKSEKSKENLNDKNDSSAEE;locus_tag=LOCUS_1070;note=MGA_110
sequence02	MetaGeneAnnotator	CDS	39812	41905	.	-	0	ID=MGA_111;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC51;translation=MEVLPSEKFKIPIQFLKGVGPKRAKALESLNIQTVEDLLYYFPRRHVDRTLTHTIDTLALDHEVNVIGRIKSIRFVKRFKKSYVIANFADHTGSMTLMWFNAAEYIGQSLKENDLLAIHGKVTSYQNKFQIVHPEYDKLNANEITVNTGLIIPIYPLTDDLKKVGLDSRNLRKIIANCIKDVEQIDDFLTPEYRNSLGLCSLDFALRNIHFTKNMDHLNSAITRLKFDEHFFIQLLFASRKKQIQNSTCLPLIKKSTILNKIKKSLTFELTNAQQNSINEIIEDLCTSHPMNRMIQGDVGSGKTIVACLVSALVIENDYQVAIMAPTDLLANQIFRNFEKYFSPLDIDCSILLGSQKSQTKKEVLKKIASGESKIVVGTHALFQKNVSFKKLGLTIIDEQHRFGVNQREQLIKKSKIPNLLSMTATPIPRTLAITYNGDMDISLIDELPKNRPDIFTTKIQNIDLPTTYDFIKEKIKNGEQAIIVYPLIEETEKSDLEAATESYEKLKKQFFSNCNVGLLHGKINNEDKNKTMLDFLDGKIDILVSTTVVEVGIDNPNATIMLINNAERFGLSQLHQLRGRVGRGKKESHCILCSDSFSDKSNNRLDILTQTRNGFHIADEDLKIRGPGEFFGERQSGFIKYKIADLITDGPIIREARKFAFQIIDNDSKLLSPENSLIKNKFEKDYLNLFLKITVN;locus_tag=LOCUS_1080;gene=recG;EC_number=3.6.4.12;note=Q8KC51 ATP-dependent DNA helicase RecG (Chlorobium tepidum TLS) [pid:41.7%25%2C q_cov:96.6%25%2C s_cov:97.4%25%2C Eval:2.6e-150],MGA_111
sequence02	MetaGeneAnnotator	CDS	41915	43249	.	-	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLLILLLSSLLVSQEQDLRKKIVIYKDNFSVIKEPLSLSLRAGLNPITFSNLSQNVIDNSLFLDLQGATILSQNISHNRFGIQRFMQKNIGASIELKPLSGSSVQGLLMDYNDKEIVLKTSKGLTIYSKNNLEYISLKSNEVSEKFSPEIEWIIQSDFDQNTDAEVHYISSDFSWNAIYNLIIDSFQDSISTKAELTINAEITNNSNMNLFNVDLAVIEGTIPFNSQSNISNTLSRNAPIVDAVTIGDYYSFSIGNDINLKSLETNFFPLLAKKVINYDKRYIFRNNERDQKDEPLNVEILFQNSDENNLNVPLPSGTINLFEKSQDGSINMLSKNIFKASHKGSLSIISAGKSFDINGKRRILNYDRQNNSEESTISLQVTNSSGQSIKVKLEEKIFGDWVVKESSSMYIKEDANTIYFPLEIKPNSSETVTYSYRKEWK;locus_tag=LOCUS_1090;note=MGA_112
sequence02	MetaGeneAnnotator	CDS	43246	45867	.	-	0	ID=MGA_113;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KC74;translation=MKQLDKNHKPADIESKWYQHWLKNNYFSNNESQDHFTIVIPPPNVTGKLHMGHVLNNTIQDILIRKARMEGKNACWIPGTDHASIATESKVAKMLEEQGINKKDLTREEFLRYAWEWKEEYGGTIIKQLQKLGCSCDWDKTSFTMDEGYSKAVLESFVMLYKKGLIYKGSKLVNWCPKSQTALSDEEVMFKEINGHLWYIKYPIINSDTFIEIATTRPETMLGDTAIAVNPNDQRYKDLIGKTAKLPLVGRSIPIIADEMVDPEFGTGCVKITPAHDLNDYQVGIKHNLEMINIMNADSSISDKAPEKYRGMSREKARKQIVSDLKEINHLIKEENYLHKVGFSERGNVPIEYYLSEQWFLKMEDLAKPAIKAVKKNEINFYPNHWVKTYNHWMENIQDWCISRQLYWGHQIPVWYKKNADRTDPKNWFVSSSAPDDINNWEQDPDVLDTWFSSWLWPFAVHGWPENDSTVYYPTNTLVTGPDIIFFWVARMIIAGFEFMNEKPFTDVYFTSILRDEKGRKLSKSLGNSPDPITLFEKYGTDATRFSIMLMAPQGSDVFFSEKGIEIGRNFMTKIWNASRFILLNNDLNSSDNINSDNFDKFDNWILSELDNTIKKSNDFFDKYQFNEAIKTIYNFSWNEYCDWYIEIAKYKFAHGSEIEKKNTLFVARKVLRNILKLLHPITPFLTEEIWQFFKTKEEKDIIVESWPREITFYHYDSKQVVLFKEVISSIRNLKAESNLASSKKAKIFINAKNDNILSQIENNKQLILSLSGCSELTIQKNLEKPNNSSIGILKECEIYLSLDELINKDEEIKKLSKRLLQVEGFIDNINQKLSNSSFMEKAPENIVQNEKNKLSELSIERKKIISNIEVLK;locus_tag=LOCUS_1100;gene=valS;EC_number=6.1.1.9;note=Q8KC74 valine--tRNA ligase (Chlorobium tepidum TLS) [pid:45.2%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:3.0e-236],MGA_113
sequence02	MetaGeneAnnotator	CDS	45851	47176	.	-	0	ID=MGA_114;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963010.1;translation=MLIRSASGLRGIAENDFSPEIIDKYISAFIFSQKIKTCAIGMDGRPSGNNMVNWAIDSLTNRGIDVDNCGLATTPTIQIITEKKKYDGGIIITASHNPSEYNGIKFLQKDGTFLSPEQCENLFLLADQNNFFMKKVKSGKVIEYKLANLDHIRKILKLDCINLKAIQAKKFKVVIDAVNGAGSKILPDLCRKLGCEVIEINCKGDGEFKRIPEPLAENLKQLERKVLGTKADIGFATDPDGDRLSIVSNSGRAIGEEYTLVLAYKNYLNYTKTPIVTNLSTSMMIDNLGQKSIRTKIGEAHVVSKMIELGVEIGGEGNGGVIAKQVHLGRDSLVAIVMILSLLSSTKQSLEQIISSIPSYIFLKDKINIRENINFDGLETVFDCDEINKQDGIKFVWKNKWIHIRKSNTEPIIRIFAEAPSNHEANELINQLKKYLNETTG;locus_tag=LOCUS_1110;EC_number=5.4.2.-;note=WP_011963010.1 phosphoglucosamine mutase (Flavobacterium psychrophilum JIP02/86) [pid:37.6%25%2C q_cov:96.8%25%2C s_cov:96.5%25%2C Eval:4.4e-78],MGA_114
sequence02	MetaGeneAnnotator	CDS	47228	47494	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYQKYYNQINLHFEFFSLSLRTMVQVNIKDNESLEKALRRFKKKWERSGVLKDVKRKAFYEKPSVTKRTAKKQTVRRAVRLAKYSN;locus_tag=LOCUS_1120;note=Q8KB70 30S ribosomal protein S21 (Chlorobium tepidum TLS) [pid:48.4%25%2C q_cov:72.7%25%2C s_cov:98.5%25%2C Eval:3.3e-12%2C partial hit],MGA_115
sequence02	MetaGeneAnnotator	CDS	47469	48221	.	-	0	ID=MGA_116;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NHI5;translation=MIYAKKKWGQNFLVDQNLLEKICNTCSIKKNDEVLEIGPGQGALSEKILQKTKNLTLVEIDPELISSLKENQLFNDIKILNQDILNTNLKELSPNGQLVVIGNIPYNITSPIIFWLIDYKTNWKKSYLMVQKEYADRLIAKPKTKTYSRITVMTNLHFNIRRCFNISPNVFHPRPKVNSSFIEIEKREISPDIDLKKYSQIARLAFNQRRKMLRNSLSTLLNEKNLQEFDFTKRPEDLVVEDYVFLSKIL;locus_tag=LOCUS_1130;gene=rsmA;EC_number=2.1.1.182;note=Q5NHI5 ribosomal RNA small subunit methyltransferase A (Francisella tularensis subsp. tularensis SCHU S4) [pid:38.1%25%2C q_cov:98.8%25%2C s_cov:97.3%25%2C Eval:6.5e-42],MGA_116
sequence02	MetaGeneAnnotator	CDS	48218	48979	.	-	0	ID=MGA_117;product=hydrolase TatD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081106.1;translation=MLIDTHTHLYYDSMKDRIEDVILQAKDNGILQMICIGTDLKSSEECIKIAENFENIYATVGIHPHDSNDVPLNYLHELFQLAKSSKKVVAIGEIGIDHFRNLSPQKIQNKVMIEQMELAYDLSLPIVFHNRDADSEIYEILKNNSFHRALAHCFSSNLSFAKKLCDLGILISFSGNITFKNASNHDALMALTLNQFVLETDCPFLAPHPFRGEKNEPKYLKIIAQKAAELHGVSLDEIEIHTTRNAKTFFNLS;locus_tag=LOCUS_1140;note=WP_004081106.1 hydrolase TatD family protein (Thermotoga maritima MSB8) [pid:42.1%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:3.1e-55],MGA_117
sequence02	MetaGeneAnnotator	CDS	48979	50460	.	-	0	ID=MGA_118;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJ14;translation=MKDFYITTPIYYVNDKPHIGHAYTTVLADVIHRYNKLIGNNSFFLTGLDEHGLKVQQSADLKNISPQEHCDKMAPEFIKLWGKLGIQFTDFIRTTESRHIEVVQHILTKVNESGDIYFDEYEGLYSVSEERFITEKEFESGNFREVKKIKEKNYFFKMSKYQQKLIQAIKSDELKILPQTRKNEVLGFLENQELNDLCISRPKSRLNWGIEIPFDKDYVTYVWFDALINYISSIKFSKEDDFFYHRWPADIHLIGKDILTTHAVYWPTMLMSLGLPLPGSIFAHGWWLTDQEKMSKSLGNVINPLSLIDKYGPDSVRYFLMREMVLGQDANFSEELFIKRYNADLANDLGNLVSRVTKLISKFYDSKIPKFVNQDSILKEKYSNILLEKRIKNFEIHTLLKEVTDFIQSINIFLEENVPWKQAKSDLELAGDTLYHSIEAIRVSTKILEPVMPRKCMEILQILSSEDLGLDWGSLQPETLIREQVVVFPRIVD;locus_tag=LOCUS_1150;gene=metG;EC_number=6.1.1.10;note=B5YJ14 methionine--tRNA ligase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.9%25%2C q_cov:97.8%25%2C s_cov:77.7%25%2C Eval:1.1e-125],MGA_118
sequence02	MetaGeneAnnotator	CDS	50462	51511	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002656659.1;translation=MIKIEELQPKLTDFFQQTIQSNNIGSAYLLYGSDGIGKNLLALDFAEKLSGIDRFNFTNNPNIFFLFPLSSEFYKKFFSGKINNEENYNFWKQLVNAKLLNQDIQNELSNSFPIESIRNIKQQIYFKSESRKVVFIYNAELLSSGSKESANSLLKILEEPPANTTFILICKNIQQVPSTIVSRCIQVKIPKPHLRDFFSQLNHPSFTFEEFSLLAQNNQSNLSLLKSLSDRDYIELVDSFYQLSNYNEPYLSEFYQKMISRNTLGMGEIIYEINLIISWFVYLEKSKYLKNNLSFNNFQKMQLKLKNIFSEDKYLEIIKHLEKFKEELNSNLSVKNVVLNLIIQLKKLI;locus_tag=LOCUS_1160;note=WP_002656659.1 hypothetical protein (Borrelia burgdorferi B31) [pid:24.4%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.6e-13],MGA_119
sequence02	MetaGeneAnnotator	CDS	51498	52580	.	-	0	ID=MGA_120;product=peptidase M23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404349.1;translation=MSAENQISILKKELQKNSSELKSLETKSVKEEDRLVSLQKSINNSVSLINAYDQKINLYEKQLTNLNQAVQRNNLKIEKIKSDYAKQSIHLYKNDRTLNDYLFSSKSINQMFYRIKYFSVLSEINRQNLNQLSITQQYNFTKENEISSTLAKTKADKVDRGKEIQNLAQLREKQRKIIRTIEKNKQEIQNRINDQKKQINELENLRLKIIADKKKYEEKQLVQYQKIEGSFSKNQGKLSWPVEGKVVKGFGPKWNPELKTTIDNPGIDFETRPSEAVRVVFDGVVTVITFISGYGTTVIIDHNNDFYTVYTHLQNLNVNENSSVSEGEIIGYVSLNKNFHFEVWGQNKKLNPMTWLNDKN;locus_tag=LOCUS_1170;note=WP_011404349.1 peptidase M23 (Salinibacter ruber DSM 13855) [pid:27.5%25%2C q_cov:91.7%25%2C s_cov:80.8%25%2C Eval:1.4e-39],MGA_120
sequence02	MetaGeneAnnotator	CDS	52690	53232	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYQKLQKLFFSLTFLSTFAFSQSIVMSKECENDLLALNELIEEAKNFSISIKIFEEFQDLDISLNPIIILCSNRYLKFSDEDFIQLRKRLINNGLLIIYNIESEYTFLNFISKIFPDQTVTNEFPSNNWLKADLIPNEKDILSIKLNEKVVLLGLKTLNSEKNNQLKIIGNFIFDYFLL;locus_tag=LOCUS_1180;note=MGA_121
sequence02	MetaGeneAnnotator	CDS	53207	53647	.	-	0	ID=MGA_122;product=glycerol-3-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880882.1;translation=MNKENKIVGITFGSFDLCHYGHVLMFKECKEYCDFLIVGVQSDPSIDRPAKNAPIQSHKERIGIVESIKYVDRVIPYDTEADLIQVLLDIKPDVRILGADHQGTNFTGYDLPIKCIFNTRDHGYSTSELRDRVFLAQKAKEGNNQK;locus_tag=LOCUS_1190;gene=tagD2;note=WP_010880882.1 glycerol-3-phosphate cytidylyltransferase (Aquifex aeolicus VF5) [pid:38.2%25%2C q_cov:89.7%25%2C s_cov:76.2%25%2C Eval:3.2e-14],MGA_122
sequence02	MetaGeneAnnotator	misc_feature	53631	54197	.	-	.	ID=MGA_123;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010880171.1:nucleoside triphosphate pyrophosphohydrolase,WP_010880171.1 nucleoside triphosphate pyrophosphohydrolase (Aquifex aeolicus VF5) [pid:40.7%25%2C q_cov:97.3%25%2C s_cov:72.8%25%2C Eval:4.5e-35%2C partial hit],MGA_123;locus_tag=LOCUS_1200
sequence03	MetaGeneAnnotator	misc_feature	1	614	.	+	.	ID=MGA_124;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_005785156.1:phosphate starvation protein PhoH,WP_005785156.1 phosphate starvation protein PhoH (Bacteroides fragilis YCH46) [pid:57.2%25%2C q_cov:99.0%25%2C s_cov:59.6%25%2C Eval:4.2e-64%2C partial hit],MGA_124;locus_tag=LOCUS_1210
sequence03	MetaGeneAnnotator	CDS	611	1660	.	+	0	ID=MGA_125;product=leucine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001162675.1;translation=MNEIFEKISSYGHEQVVYCNDKNTGLKAIIAIHNTILGPSLGGCRMYPYQSDSAALEDVLRLSKGMTYKASISNLNLGGGKAVIIGDPKKVKTSELLKSFGRFVDTLNGRYITAEDVGMTVEDMEHIRSQTKHVTGITQSLGGSGDPSIFTALGVFIGMKAALKKKYQTESFDNLKVGIQGFGKVGYYLSKHLFEAGAKIYGFDVDQERLSIVCKEFGVTPIPNDDLMNLDLDIFSPCALGGIINPQTIQSLKCQIIAGAANNQLLDEKRESKTINDRNILYVPDYVINAGGLMNVANELTGYDSSKATKQVEGIYDTLLEIFNLSEHQNLSTIEAANLIAEKRIQDSK;locus_tag=LOCUS_1220;gene=dhlE;EC_number=1.4.1.9;note=WP_001162675.1 leucine dehydrogenase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:50.7%25%2C q_cov:99.4%25%2C s_cov:94.5%25%2C Eval:1.5e-99],MGA_125
sequence03	MetaGeneAnnotator	CDS	1670	2080	.	+	0	ID=MGA_126;product=N utilization substance protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KBS4;translation=MKQLRKQAREAVLQALYAKSLSEEDSKKVLIDINLRYEFDEPTKEFVHDLFYATIENEQSISSQIELHLKNWSIERINLIDKIILQMSLAEMIHLKQYDISHKITISTAIENAKKFSSDESIAFVNGILDSIFKKQ;locus_tag=LOCUS_1230;gene=nusB;note=Q8KBS4 N utilization substance protein B (Chlorobium tepidum TLS) [pid:42.2%25%2C q_cov:97.8%25%2C s_cov:81.1%25%2C Eval:5.6e-20],MGA_126
sequence03	MetaGeneAnnotator	CDS	2083	5028	.	+	0	ID=MGA_127;product=protein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KD18;translation=MSILSKIFGTKSDREIKKILPLVKKINDFYNSIENYTEKDLQNRTREIKEEISQKIISSTDEKEVLDSYIIETFAMVKHACRLLVGKEWEVVGQVIKWEMIPYDEQIIGGVVLHQGKIAEMKTGEGKTLVATFPIYLNALTGNGVHVITVNDYLAKRDAQWMGRVFETLGLNVGFIINSMNPSERKISYSSDITYGTNNEFGFDYLRDNMSVDSEHLVQRKHNFAIVDEVDSVLIDEARTPLIISGPVESQIDQSYIELRPSVQSLVRRQESLVNDLLNEAKSLLKKEEKSNEDKFQIGLLLLKAKKGLPKNESLQLLFQTPGNLKLMNSVESQFIAEKKVHELDEDLLFVIDEQANSVDLSDKGREFLSPNSPESFTIPNLGEILSEIDEMHIDENDKLLKKEEAYSLHSNRSSRIHHLQQLLKAFTLFQKDVEYVVQNGQVLIVDEFTGRVLPGRRFSGGLHQALESKENVKIENETQTLASITLQNYFRMYNKLAGMTGTAETEAAEFEKIYKLEVTVIPTHKPVARKDFDDVIYKSMQAKYQAVINEVISYYKSGQPVLIGTVSVDVSELLSKMLKKNSIPHNVLNAKQHQREAEIVAQAGLKKSVTIATNMAGRGTDIKLGPGVEEIGGLHIIGTARHESRRIDLQLMGRAGRQGDKGSSRFYISLEDDLMRLFNMDKLATYMDRLSIDENQELSAGMLNRGVRNAQQKVEERNFAIRKHLLEYDDVLNQHRTIIYELRNKALKEDSIKPTFDEFIEDYLLDVFYKYEDIKAEELEWNDIKNRLKTNLMLEIDEKEFRSISNIDTIVNKCLSMALDNYSQKEAIIPEEILRKVEKFIFLKTIDEKWRNHLQAMDQLREGIGLRAYGQKNPLIEYKSESFIFFQELLLSLKASIIQRIFLAQINAENQPQVLSPKKVQLSRSENFINSPQNNGDLNETSDDKIGRNSKIIVISPSGEKKEIKYKKLDVYLSQGYKRV;locus_tag=LOCUS_1240;gene=secA;note=Q8KD18 protein translocase subunit SecA (Chlorobium tepidum TLS) [pid:48.9%25%2C q_cov:94.8%25%2C s_cov:93.8%25%2C Eval:5.3e-261],MGA_127
sequence03	MetaGeneAnnotator	CDS	5021	6190	.	+	0	ID=MGA_128;product=cystathionine beta-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0A4K2;translation=MSKKNLKFDSRIVHVGNKIDETSSTVTPLHLTSTFKQKRFESTEQFVYARTGNPTLAALEESLANLEGADHAYGFSSGMAAMTAIFLMYKPTDHILISRNVYGGVFRLVTRVLNDTGVEYDFIDTSDLNCVKKSIKKNTKHIHLESPSNPLLELADIEAISRIAKENNCVLSVDNTFMSPYGQQPLKLGADIVMHSTTKFLGGHSDLIGGALMLNGDQINSKIQLIQNTAGSLQSSFDAWLLLRSIKTLTVRVERQFRNSLIIAEWLEKQKNITKVIYPGLSSHPQHSLACKQQLDPNNKPVFGSMISFELTQKKDINKFAKNLNLLTLAESLGGIKSLISCPYSMTHASVPVKEKQRLGISKNLLRLSIGIEDPDDIISEIDFAINHC;locus_tag=LOCUS_1250;gene=metC;EC_number=4.4.1.8;note=P0A4K2 cystathionine beta-lyase (Lactococcus lactis subsp. lactis Il1403) [pid:45.2%25%2C q_cov:96.9%25%2C s_cov:97.9%25%2C Eval:8.3e-94],MGA_128
sequence03	Aragorn:1.2.38	tRNA	6227	6309	.	+	.	ID=Aragorn_6;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence03	MetaGeneAnnotator	CDS	6312	8102	.	+	0	ID=MGA_129;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942954.1;translation=MELIILGIIIIGALALFVSELFPIDVTALLVLGLLLIFGLVTPAEGLSGFSNPAVITIACLFVLSYSLQKSHILEYLIVKINTLIDKSRILGVISYLFFIGLSSAVVNNTAIVAIFMPITIRLSEKYNISPSKVLIPLSYAAILGGTLTLVGTSTNLIVNSILVDSTGGSVSLGMLEFAKFGIIKFLVGLIYIFTIGYKLLPNRVNKSSSIDNYSLDGYLTEFKVTDKSPILGKTLFDRKINQNYDVIVLDVIRDGKIINQNLRGLLLQVDDILFVKGSFENFQKMKEVESLNLLADEKLTQEELEQDDNIIAECLVTDNSSIIGKTLQDSNFRRTFGSFVLAIKRDGEIIRRKISQFILKPFDTLLVYGPKDKIMDLGEKEGFIVLGKVDATLDINPLRWLSLITILFSVTLAIIGLLKIEVGVLLSVIILFLAKVITPSEAYKSIHWQVIIVIAAFLPMGAAISKTGMDVIIGGSIERFISFFPSEILPFILLAVIYFLTMVLTEIASNAATAIIMTPITLSLSSAFSYDPKPFIFAVCFAASASFITPVGYQTNLMVFGPGGYKYSDYIKVGLPLGLILWIVSVIMIPMIWPF;locus_tag=LOCUS_1260;note=WP_010942954.1 membrane protein (Geobacter sulfurreducens PCA) [pid:32.3%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:2.9e-99],MGA_129
sequence03	MetaGeneAnnotator	CDS	8104	8340	.	+	0	ID=MGA_130;product=4a-hydroxytetrahydrobiopterin dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980242.1;translation=MVWFEKNNAISKSFEFENYSQSIDFINSVAVLAEKENHHPDILIEYCKVTITLSTHDVGGITAKDYNLAKLIDHIKVL;locus_tag=LOCUS_1270;EC_number=4.2.1.96;note=WP_010980242.1 4a-hydroxytetrahydrobiopterin dehydratase (Sulfolobus tokodaii str. 7) [pid:46.6%25%2C q_cov:93.6%25%2C s_cov:78.5%25%2C Eval:1.2e-14],MGA_130
sequence03	MetaGeneAnnotator	CDS	8337	9167	.	+	0	ID=MGA_131;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005418680.1;translation=MIYLILVSILWSFSFGIIKYGLGDVNPILLSFLRNLIAFVFFALITVYNHKRFVFDIKLIAIGAIQFGLMYVFYISSYQFLPTYLIAAFTISTPIFIMIFSQIINHKPFTLNGICSVFLVLTGSFLIRLTIVNPLDYWIGFILIQLANLFFALGQLLFKEWKSKNKQTDVINNFSQLFFGAVIITFIFNSFYSNSFETINSHHIPWLLFLGLISTGFGFLAWNLGSIQVSNERLAVMNNLIIPIAIINSFLFFQEQINFITFLPAMILFYLAYRLT;locus_tag=LOCUS_1280;gene=yigM;note=WP_005418680.1 membrane protein (Vibrio fischeri ES114) [pid:32.7%25%2C q_cov:98.6%25%2C s_cov:95.1%25%2C Eval:3.0e-30],MGA_131
sequence03	MetaGeneAnnotator	CDS	9192	9950	.	-	0	ID=MGA_132;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004190175.1;translation=MNIYITGASSGIGEFVAYEYSKMGATIALCARRKEKLEIIEKKCVSLGAKVYTYSIDVTDLSSVKESIDDFLSKVNSIDLVFANAGLGSLDFIEKGNPSSMNQVIETNVIGVQNTVVPFVPKMIEQYSGQIAIVGSVASYVAWPGSGAYAASKFAVRALSESLRRSLPKQIQVTLICPGFVKSEMTEEVQFKPFLIDTEKAAKKIVAAITKKKRVFIFPWQWNLVILFKKIIYLTLGNAFQKKHDRFRNKQS;locus_tag=LOCUS_1290;note=WP_004190175.1 short-chain dehydrogenase (Burkholderia mallei ATCC 23344) [pid:32.6%25%2C q_cov:89.3%25%2C s_cov:86.9%25%2C Eval:2.0e-27],MGA_132
sequence03	MetaGeneAnnotator	CDS	9949	10980	.	+	0	ID=MGA_133;product=polyhydroxyalkanoate synthesis repressor PhaR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000371239.1;translation=MFEFIRQKSRKSNYISVFIMKKDNYSNLVESIILNVGRQITELSQKDNSNLVTVAELILKSKGKVIVCGLGKSGLIGQKIVATLCSTGTQSVFLHAADALHGDIGIYKKNDPTILISKSGNTEELIRLIPIIKSMNSKIISIVGNKNSFIAHNSDFILDASITEEIDSLGIVPTTSTVASLVIGDTLAAILMKMRDFKKNDFAKNHPAGELGKQLGLRVSDVFHPLSEIAFFKPSDSLFHVTSLMTKYPLGASFCLDNKNSILGIITDGDIRKSINNGLNPNDSVKSIINFNPITINESTSLIEAMKIMEDRASQISILPVVDKDNKCIGLLRLHDLFQTKLV;locus_tag=LOCUS_1300;gene=gutQ;note=WP_000371239.1 polyhydroxyalkanoate synthesis repressor PhaR (Leptospira interrogans serovar Lai str. 56601) [pid:41.7%25%2C q_cov:83.7%25%2C s_cov:89.4%25%2C Eval:9.5e-59],MGA_133
sequence03	MetaGeneAnnotator	CDS	10977	12059	.	-	0	ID=MGA_134;product=saccharopine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249826.1;translation=MKNIYQIGFGLIGKAMSQDLSQNFKVHVVDINPKAFRNLNNPNIIPCSFDVREKDKLAEWLYGADLVLLAVPGFLGYEILEMLIDLGVNVVDISFSPENLLELDQKAKNKGVTVIIDAGLAPGLPNLFLGHYYQENQISSFSYYVGGLPMNPKPPFKYKAPFSPIDVIEEYTREVSQKVRGQLIKREALTDIEQRNYKDIGNLEAFNTDGLRSLIFTMKDIPNLKEKTLRFSGHANLIIEMKKKGLFNKEAIVSTSQKLIEEWKLDVNEKEFTILEIFISSVDKNTRIFLYDEFDDNSKTTSMARCTGFTATGCVNLLNNEKNNFTFQGVVPLEILGQNENYFNFLIEYLNDRKIKFDIS;locus_tag=LOCUS_1310;note=WP_011249826.1 saccharopine reductase (Thermococcus kodakarensis KOD1) [pid:33.1%25%2C q_cov:97.8%25%2C s_cov:95.6%25%2C Eval:2.7e-43],MGA_134
sequence03	Aragorn:1.2.38	tRNA	12096	12170	.	-	.	ID=Aragorn_7;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence03	MetaGeneAnnotator	CDS	12174	12386	.	-	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNTNKNPDKIIWPFKRKNYLLFGFAVLVIIVGYFIMYMGDVNSFQSVTLAPILLIVGYIVLIPLAILKN;locus_tag=LOCUS_1320;note=MGA_135
sequence03	MetaGeneAnnotator	CDS	12476	13474	.	+	0	ID=MGA_136;product=aminodeoxychorismate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438164.1;translation=MNFTKNQIFANYFFLFLSIVLIVFTIIFSANNQTISKKIITIEKGKNLNEIIDLFYREELVKNKFVFKSFIYFRNLQKKIPAGTYLFQGQISNSSIINTIFSNGQISKIITIPEGSSTKKVVDIILSEFDFELSEVELLKDKKFLESIGIQSSSIDGYLFPDSYFFHYDDSFKSIIQKIVNEFEIRVLPLYNQNQIKEMTLHEILTLASIVEGEAMIDDERAIIASVYINRLKKNMKLQADPTIQFIVDGSPKRLTSRDLKIESPYNTYLNFGLPPGPINNPGLKSIHAVLNPEKTDYLFFVAKGDGSHVFTKNEKDHNEAKKNYKKFLRNQ;locus_tag=LOCUS_1330;note=WP_003438164.1 aminodeoxychorismate lyase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:36.5%25%2C q_cov:98.5%25%2C s_cov:94.7%25%2C Eval:4.3e-53],MGA_136
sequence03	MetaGeneAnnotator	CDS	13475	15640	.	+	0	ID=MGA_137;product=DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I6Z8;translation=MKLQDLNKNQLKAVQEVKKPLLVFAGAGSGKTRVLTYKIWHLINQKLYQPQQILALTFTNKAAKEMKDRISQSIDIQGVNVGTFHSIGARILRQNISKINDSYGPDFSIYDTNDQKTILREIIEELNLAENRLFSPSFLLSEIDKFKNNLIDEKSASKSAKSFEEQQIAEAYNLYSLKLKKNNAVDFNDLILLPIKIFSLNKTILKSYTDQWKYILVDEFQDTNTAQFKLIALLSNNNKNITVVGDDDQSIYGWRGANIDNILTNFNEEFPNCVQIKLEENYRSSQRILDAAWSVVIKNKNRAEKKLRATKGQGDKISLISTDNDEEEANAICDSIKSEIKLHKNTFKDFAVLYRTNAQSRSLEQAFIKEGLPYNIVGGTKFYDRKEIKDIISYLSLITNPNDNVALKRIINFPVRGIGEKSISLFEDLSTKTNISMFQSLKNASDLNLRGKQLDSIKSFYNSINKFNGLLDELDAKELIRVVLEEFNIQNYYKNNPAEFDRYNNIQEFKAFVDQFMESNNSSLREFLQEISLFTDIDNWDSKNNSITLMTVHAAKGLEFSKVMISGLEQGLFPLIRMDDTSEQLEEERRLFYVAVTRAMENVFIFNARFRRRFGSSLNTSFVQSQFLDEIDPSLVTVKPYKSVYTKRITGVGKNKKVQISRTIREFDDFKVGNQVEHNLFGVGTILVLTGTGENQKVGVEFSGGLKKKLIVKYARLKKIG;locus_tag=LOCUS_1340;gene=pcrA;EC_number=3.6.4.12;note=A5I6Z8 DNA helicase (Clostridium botulinum A str. ATCC 3502) [pid:40.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.5e-145],MGA_137
sequence03	MetaGeneAnnotator	CDS	15670	16134	.	+	0	ID=MGA_138;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964007.1;translation=MNNLPCRFHLNIESVLKQEGLRVTKQRLAIWDEIKSSESHREIEAVLISLKKNKISVSRATLYRTIEVFVKYNLVNKISFNDGKVLYEHNKKTISPNHNHIICESCGKVFEFFDDSILAIENEMEKELKIKITNRSYSLSAVCNDRSCSEKINK;locus_tag=LOCUS_1350;gene=fur;note=WP_011964007.1 transcriptional repressor (Flavobacterium psychrophilum JIP02/86) [pid:41.3%25%2C q_cov:78.6%25%2C s_cov:79.3%25%2C Eval:8.7e-16],MGA_138
sequence03	MetaGeneAnnotator	CDS	16131	17009	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTVLISHFVPGMKIEGFYYCVEKRILKKKDGTKYLSLLLQDKSGSIRARLWDNIDGFSKKFSSPNPVAIKGEIYQYGDNLMIKIRNINFASIEKYSKFGFNPAELIPESNINPTKLWEVLLNEVSLISKNHFKILVLKILKDQKNKFIVFPASISYQYNYQNGLLAQTISMVNSAKLLRKNYEFDYDLLLSGISLHQIGKLYSINVGFSNSSKSSNEKALLGNAILSKDLVGEYINQIPTFPKEDKIKLDHLILSYQGRREWMSPIEPQTIEAILLHTISYLDSQINILKR;locus_tag=LOCUS_1360;note=WP_010941783.1 HD family phosphohydrolase (Geobacter sulfurreducens PCA) [pid:28.2%25%2C q_cov:93.8%25%2C s_cov:72.0%25%2C Eval:3.4e-27%2C partial hit],MGA_139
sequence03	MetaGeneAnnotator	CDS	17019	19034	.	-	0	ID=MGA_140;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963575.1;translation=MKYIKILLNLIIIFNSLISKELRGIIINQDDIPIDYAVIVDNGSKEWTIADENGEFSINSSGETITITRIGYKPKTFMPIGSFQYFKLLSESIELDPVNVFTVNDIRMVKEFKEKSLIGEFSNYGNLYQIPSFSIRTYGSISGVVSPSFDNGFPRHTKVLFNNVDVTNAQLGQADLSLFPTQVLNNVAFDSNIGAVYNSGSIDGVINFKNQNSENSVFINSGSNAFSQFGSKISLSRESSRRDIFFSKTQYDGNYKFYNNISNQYEKRENNQFDQVFFSINRIYKLNNDTFFHYSSMFSIVERNVPGSVFYPTSNASRKDDISLRNLTWTKNFNSSSLKFYFHIVDSIQEYQYDSEQSSLSEHLSNTYTSGINFKTSNRQRNFQIIFENKKNFLDSNDIGKINITEKSLLTSFQYNSLNNRFRTKPVFRFDSQENIQKNTFSLSSSYNFKLLPINFEIETGSGFQFPSLNDLYWPDSQYSSGNKNLKNEESNYLTSNLTYTNSSTLFKASVSFKKYKDLINWISDQNGKYSPVNISIAEKNSLNLFWKLSNDNQGIISSINFYDSIDKSKNKKLLYVPDYQASLTYFFSIDKHSLEIDYLIIGDRITQYASSYTPEVLSKKFDTINLAYALKEKSIRYGFIINNLFNEKYQSTFGYPEPLRTFNLTLEYFF;locus_tag=LOCUS_1370;note=WP_011963575.1 TonB-dependent receptor (Flavobacterium psychrophilum JIP02/86) [pid:22.1%25%2C q_cov:83.3%25%2C s_cov:91.0%25%2C Eval:6.7e-23],MGA_140
sequence03	MetaGeneAnnotator	CDS	19283	19633	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPSIVRLNKYVKFHSKDMVLNRKNLFLRDNSSCQYCGCSKSSLTIDHIVPKGKGGEDSWTNLVVACSSCNIKKGNRTPKEANMPLRKDIKKPNSLLYYNQFVNSNNSDWKQFLF;locus_tag=LOCUS_1380;note=WP_010932408.1 HNH endonuclease (Chlorobium tepidum TLS) [pid:52.6%25%2C q_cov:98.3%25%2C s_cov:67.1%25%2C Eval:2.9e-32%2C partial hit],MGA_141
sequence03	MetaGeneAnnotator	CDS	19652	20626	.	+	0	ID=MGA_142;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RGA3;translation=MNIKNKRVLSGIQPSGLLHLGNYFGMIEKMKEFQDSSELFCFVANYHSLTTVNNKSNLRDFTNDLFINLISLGIDPNKSTVWIQSDVPEVTELSWILSNFSSVGLMQRSTAYKDKISKGFRPMMGLFSYPILMAADILSFNADIVPVGEDQKQHIEMTRDIALKFNNSFGEVFNLPEPLIDEEKSLVPGTDHQKMSKSYNNIISIFDKEEIIKEQVYSIVTDSAGLNEKKNINSPLFKIYSLFLNVEEIKELKNRYETPGLKYMEIKQELYERILEYFSEFRNLKSELSSKPDDLEDLKKIGKNKAQKIALEVLEKVKSATGLI;locus_tag=LOCUS_1390;gene=trpS;EC_number=6.1.1.2;note=Q8RGA3 tryptophan--tRNA ligase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:50.6%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:4.3e-90],MGA_142
sequence03	MetaGeneAnnotator	CDS	20627	21334	.	+	0	ID=MGA_143;product=segregation and condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG32;translation=MFKVQLQNFEGPIDLLLYFIKRDKIDIYDIPITKITDEYLQVIQEAKNLDISIAGEFLFMASLLLRIKTQMLLPIRKMDEIDIEDPRFSLVEQIVQYKNFKNIARDLEVIHLKNRNIFQRISTGNEMIRTKSTDDYLQGISLYDLSKIFHSLIKTLPQKDILKISRETVSIDDQKNVIRSFFKKKKIVSLKSLIKTLKSKLEIVVTFLAILDMLRDGVIFCDQKKNFDDIEMRLI;locus_tag=LOCUS_1400;gene=scpA;note=Q8KG32 segregation and condensation protein A (Chlorobium tepidum TLS) [pid:34.5%25%2C q_cov:97.4%25%2C s_cov:95.9%25%2C Eval:5.9e-34],MGA_143
sequence03	MetaGeneAnnotator	CDS	21335	21862	.	+	0	ID=MGA_144;product=segregation and condensation protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZVJ4;translation=MNSKNLNIVESLIFLSSEPFKQEDLNIVYEEHAEVPNLEKIVTMLNKRYTDFSYQIEAVSGGYLFVTKEEYEPFISKIYPSKKLTLSKASLEVLAIIAYKQPISRQEIEEIRGVDCKGLIKNLLLKNLIKIQGRDDSVGKSLLYHTSEGYLNHFGLKDISEMPKMSEINDLENEK;locus_tag=LOCUS_1410;note=Q5ZVJ4 segregation and condensation protein B (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:37.5%25%2C q_cov:93.7%25%2C s_cov:85.2%25%2C Eval:3.1e-24],MGA_144
sequence03	MetaGeneAnnotator	CDS	21859	22566	.	+	0	ID=MGA_145;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I2T5;translation=MKLHKFLSLSGVISRRKSIDAIKNALVTVNDYLVLNPFEEIDHNNSIIRLDNRIIKIPSTFETIILHKPKGYICSKADELNRKTIYNLIPKSKTKLDYVGRLDKDTVGLIILTSDGQLNNFLTHPSNKIEKEYEVITNEFIPEKIVQRIKKGIFIGSGERGRARIISQKKSNNFIIVNLVLTEGKKNEIRRIFKFTDLKLISLKRVRIQNLHLGNLKEGQWKILKSSDIKNLLKA;locus_tag=LOCUS_1420;gene=rluB;EC_number=5.4.99.-;note=A5I2T5 pseudouridine synthase (Clostridium botulinum A str. ATCC 3502) [pid:34.8%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:7.9e-31],MGA_145
sequence03	MetaGeneAnnotator	CDS	22629	23294	.	+	0	ID=MGA_146;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q187C4;translation=MVVAIDGPAGVGKTTTAKLLADKLGFMYLDTGAMYRSMTYFFLQKNVDLNDIKDIQENIILFENIVEFKIQNPMIIFLSGKDISQEIRRVAVTNYVSQVSAIDDVRKSMVKIQRSVASKGNVVVEGRDIGTVVFPDAEFKFFLTAEYEVRALRRLKEFNKMNENINVNQIKEDLLARDNYDSNRKISPLKKAEDAFEIDTTNCTIDEQVSIIFKEIEKKNE;locus_tag=LOCUS_1430;gene=cmk;EC_number=2.7.4.25;note=Q187C4 cytidylate kinase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:45.8%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:1.7e-48],MGA_146
sequence03	MetaGeneAnnotator	CDS	23287	25017	.	+	0	ID=MGA_147;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_661192.2;translation=MNDKLENKNESTDLNVIENNNEVKTSSVLSKIKNYLSKDLFSGVKIIDNNDEQVVEEKATNLEEYRSTFSDITENQIINARVIGISDSDVMVDIGFKSEGLITRSEFENQDLPVIGSDIEVFLEKFEDNEGNISLSKYKADFIKRWEELIQIAKDEITIKGKILKRVKGGLVVDLGVIQAFLPGSQADVQPIKNFDDLIGKELDFLIVKVDEVRKNLVVSRKAILEESLNERRQELMQNIEIGTKLEGVVKNITDFGAFIDLGGVDGLVHITDFSWGRINHPSEIVSIGDKINVQVVDYDQKTSRISLGIKQLIDNPWQSIPEKYKVNDTVDGKIVSVMNYGIFVELEKGIEGLIHISEVSWVKNIQNLQDSYKVGDKIQAKVLSVEPDDQKISLGIKQLSTDPWLDIDGKFQVGDKGKGIVSKITKFGAFIELDDKFEGFVRIVDLDWKVNPAHPRELINEGETVEFIISDISSKERKILLSIKDLNENPWVEISKNFQVGSTIAAKFESLEDNLVKFKLEGDIQGIVPMNKVSKDVKKNILPELKSGSEIQLTIEEVNEKGKNIALMFDNIKND;locus_tag=LOCUS_1440;gene=rpsA;note=NP_661192.2 30S ribosomal protein S1 (Chlorobium tepidum TLS) [pid:43.3%25%2C q_cov:87.5%25%2C s_cov:86.4%25%2C Eval:1.2e-129],MGA_147
sequence03	MetaGeneAnnotator	CDS	25010	25969	.	+	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSSSIKRFGTAFLIAFVFWFFIKSEDSYNVNIRIPLEARNLQEQKTYKEEVPESIIVNLKGSGRSFIWLSLFRNFYDDFKAVIDLSSISDEYNFELNSYYKENPEKIVLPQSLSLDFIEVISPRQIEINLDRYLVKKVPIKSNIFPRIIPGNIIVGEIEFSPDSVSLGGPEEVVNLISNIETFSDSLDNLDREFFGEIQLSSPDKLVEFSPKRVNYKLDIQPISETIVSGISVQLINKPTDVNVFVNPSTVSLTIVGGLKQITKILPNEIQVIIDFEKDWKADKQFYAPEIRIPKSLIDWKNLSPNNLEILVIKEIN;locus_tag=LOCUS_1450;note=MGA_148
sequence03	MetaGeneAnnotator	CDS	25966	26937	.	+	0	ID=MGA_149;product=tRNA N6-adenosine threonylcarbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H010;translation=MIVLGIETSCDETGVAICQNSQVIESHTKTQLIHNQYGGVVPELASREHEKYLSEITDLVLSKSNLELSNIDAIAVTNGPGLMGSLLSGVSFAKGLAQGLGIPIIPVNHLEAHLNSIFIEHPSLEIPHINFLISGGHTQLWLVNNLFDYKLIGQTLDDACGEAFDKGAKLLGLPYPGGPEIDKISKKGNPSKINFPRPMLQSDNFDLSFSGLKTSLLNYVRQNDNYDLNDVCSSYQEAIIDTLIAKFDKALNYYEINTGVLCGGVAANSRLRQKLESLTKNFYFPAMKYCTDNADMIAFLGELKYKNSKQRKNNYDVNVFSKM;locus_tag=LOCUS_1460;gene=tsaD;EC_number=2.3.1.234;note=A6H010 tRNA N6-adenosine threonylcarbamoyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:46.4%25%2C q_cov:99.7%25%2C s_cov:96.2%25%2C Eval:7.9e-76],MGA_149
sequence03	MetaGeneAnnotator	CDS	26946	28145	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILRLKSLLFLIFFISCNIYDPSSKTDNISKKSVPIEELLQSQTDLQNEFNLKIDNVIIYPNSTGEGFFLDISYKNYNLNDISMLSVLSDNQLVLNEPIILESKKVDYFKRYLIEKEFIPEKNIQIIFSSINKENNINDNRILVERNLKIDTEKIALISGQISFLTKAIKQEINKSIDHYFVMPYEDFINLDNFWTTKYDLVILDYFPLKEIPKKWFEIFLKKLIEDKSSLILVSNNNQENYFRKLLPLFGIKESELILKNFKLYENQDFRSAFFYNQFPSKLFDYDNGNINKAIDWTLKKDKLVFSFYSSKSDYVENDDLILYGYSNIQNNDKKVFRAIISNDEKQVYFESQMFLNPINNYYFAKFSSLKTGLYSISIVDNENNIFSEKKLTVTENNK;locus_tag=LOCUS_1470;note=MGA_150
sequence03	MetaGeneAnnotator	CDS	28142	29410	.	+	0	ID=MGA_151;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66647;translation=MIDIKKIRENIEVLENSLKRKDQTISLSKILKMDKELRTITSNLNILQSEQNQISKEIGKMKSQGGVDNKLFTSLKSLSLNIKDLESKSKNLSKKLKDKMLLIPNPPHDSVPQGETSEDNVVIRRHGETKKFDFELKDHVQICNDMSLVDFEGGVKISGGGFPLMKGKGALLERALINFMIDYHLKNYDYTEYLTPFLVNPSSAITTSQLPKFSEDMYYIEKDDLYLIPTAEVSITNIHRDDILDFNELPKYYLGYSACFRREAGSYGKDTRGLLRVHQFSKVELVKFVEPNNSYKELENLVVQASKILELLELEYRVVELCSGDLSFAASKCYDLEVWAPKEGSWLEVSSCSNFEDFQARRGNIRFKNKDGKVEFVHTLNGSGLAIPRIFAALLETHQNKDGSIKIPAALQPYMGISKLDS;locus_tag=LOCUS_1480;gene=serS;EC_number=6.1.1.11;note=O66647 serine--tRNA ligase (Aquifex aeolicus VF5) [pid:51.6%25%2C q_cov:98.6%25%2C s_cov:98.4%25%2C Eval:3.8e-116],MGA_151
sequence03	MetaGeneAnnotator	CDS	29452	30093	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGFSSLIEIIITGKKENFKRYGKGWSFFLLKIYGVKLEIIYDKNFDQSKNFIFCPNHSSLIDIPVVFKSIDQYIVFLYKKELSRIPIFKTILDFAGFFYVDRSNSESAKKSMNLLLHDLKTTPRSVVIFPEGTRSKKGNLIDFKKGAAVFSLNSGLPIIPVAIIGGRNWWETKKVKVIFGKEINTENFNYEHRIIITEKIKNRIQTLLEKYC;locus_tag=LOCUS_1490;note=Q8KAW5 1-acyl-sn-glycerol-3-phosphate acyltransferase (Chlorobium tepidum TLS) [pid:32.1%25%2C q_cov:77.5%25%2C s_cov:70.7%25%2C Eval:2.1e-24%2C partial hit],MGA_152
sequence03	MetaGeneAnnotator	CDS	30077	30532	.	+	0	ID=MGA_153;product=glycerol-3-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016760.1;translation=MKNIANNFEQFYDQSSNKKIVFTNGCFDILHVGHIRLLNDAKKLGDILVVGINSDSSVKKLKGENRPVNIESDRKTLLESLKSVDYVFTFDEDNPLNLIKKIRPNILVKGGDYNENIIGSDFVIENGGEVKILFFHEGYSSSKYINQIKKA;locus_tag=LOCUS_1500;EC_number=2.7.7.39;note=WP_011016760.1 glycerol-3-phosphate cytidylyltransferase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:57.4%25%2C q_cov:89.4%25%2C s_cov:85.0%25%2C Eval:9.0e-39],MGA_153
sequence03	MetaGeneAnnotator	CDS	30571	32319	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYKIYIYIAILFNLLIGQNSLTQASKKPFMNTDDTSFLLAGNRITSILNEAKQYLSDAIIADVNLDTVEVVYNIKRIFDLLSDVDQIGVKEEIDKIEFEKFQNDFIKIYTDRLSTIDRSTQFLTADLIKKDIADFVDDNETVEMGSTKFTIVEDRAGHIPLVINKDVERYIRYFQGKGRKGYNIWLRRYAEYRDMILPILQKNNLPEELIVVSMIESGFDPRAVSRAKAVGFWQFMYSTGEQYGLQRDWYIDERQDPEKSTEAAVKYFSDLYNEFGDWFLVLAAYNSGPGRVNRAIKFHDTTDFWQLYSLPEDTKNYIPYFMSSAIILRNPEKYGFKIPRSKPLSYDVVEVEKSADLSILAKAADSRLSIIKKLNPELRQPATPSNKTYQLKIPLGKKDIFIKNFNSIPDEEKFSIQRVEHRVGKGENLISIASKYRVSVADLQSINEITNVNKLFIGQKLKIPIKGGIYSNYPDKITYVVKSGDTLGHIAEDYKTRASEIRKWNNMGNSSSIYPGQKLTLFVNRIIESSPSQSIEYVVKNGDSLIKIAQEYKVSVNQINEWNKLTSSIIYPGQKLKINTD;locus_tag=LOCUS_1510;note=WP_010941675.1 lytic transglycosylase (Geobacter sulfurreducens PCA) [pid:36.6%25%2C q_cov:62.0%25%2C s_cov:75.7%25%2C Eval:1.1e-66%2C partial hit],MGA_154
sequence03	MetaGeneAnnotator	CDS	32330	32620	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQDIVDAVSTSTGLSKVEVETVLNHAFDLIIKALEKNDKIELRGFGTFSVKYRLPKKARNPKSGDPIYLPERYVPVFKPSKKMKINVNEKLIDY;locus_tag=LOCUS_1520;note=WP_007328824.1 integration host factor subunit beta (Rhodopirellula baltica SH 1) [pid:44.0%25%2C q_cov:94.8%25%2C s_cov:65.5%25%2C Eval:2.2e-16%2C partial hit],MGA_155
sequence03	MetaGeneAnnotator	CDS	32737	33615	.	+	0	ID=MGA_156;product=NAD kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZRQ7;translation=MKAPKTFAIWANLDKKESSLLLVSILDWAKQNNLEVFLPSSLEKISEITKNFNFSYFKEDESVPSVDFFLSLGGDGTLLSAVRNAREKSIPVLGVHLGELGFLSITTPDNIISKLNAILKGNYSIEERIVLNAKISNSEKIYFATNDLVIQNQNSYRITSLSFSVNDQEVGQYKSDGIIVSTPTGSTAYSLSAGGPIVQPDVFSILVTPIAPHSLTSRPLVLPSNVKITFDFQGSSETSLNLICDGQQIIHFSKNETITIVKSSNNLKFITFDDYDYYEILRKKMGWGKRGV;locus_tag=LOCUS_1530;gene=nadK;EC_number=2.7.1.23;note=Q5ZRQ7 NAD kinase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:37.1%25%2C q_cov:94.9%25%2C s_cov:92.5%25%2C Eval:1.9e-46],MGA_156
sequence03	MetaGeneAnnotator	CDS	33618	34097	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTLSHALWGKGLFSNKNFGSLAFFFGAMPDLFSFGIFFFLKVFEGDFTFGKPPEISILPDWLFFSYDFTHSFIVSFLFIGIVFFFKREFFIPMFAWPFHILLDFPFHSEAYFPTKIFWPLNNFYVDGIPWSNPKVWFSNLAGLIFLFAYRKFKFGKFF;locus_tag=LOCUS_1540;note=MGA_157
sequence03	MetaGeneAnnotator	CDS	34075	34881	.	-	0	ID=MGA_158;product=proline dehydrogenase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O32179;translation=MIDSVLKLNNQGYDVAIDILGEHVKTEIEAERITNHYKEIYQLINQNNLSANISIKLTHIGQDLGYDVVKKNLFELLKAAKETNNFLRIDMENSPYTSETIQLYKECIKIYDKVGIVLQAYMLRSENDLEILSDENFNVRICKGIYVEDESIVFKNFYKIRENYISLVKKGLLNNSYIAIATHDEEIINHLSSWIIENNIPNSQFEFQSLHGVPIEKKLQELLSQSFKVRIYLPFGDNWYDYSIRRLKENPKMAGYILKNLFKKIFRI;locus_tag=LOCUS_1550;gene=fadM;EC_number=1.5.5.2;note=O32179 proline dehydrogenase 1 (Bacillus subtilis subsp. subtilis str. 168) [pid:35.4%25%2C q_cov:98.1%25%2C s_cov:86.8%25%2C Eval:2.3e-48],MGA_158
sequence03	MetaGeneAnnotator	CDS	35017	36234	.	+	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVVLIIGGAVSGSTAAQKLSEQGIKSVIIDQNSMPYGKIEDGLPRWHEKQRISEYFKIDEILSNELVSFVPNMKVGSDISLEELMNMGWSCIYFANGAWKDRSFPVDEIESFKNFYYQNPLVYWFNHYHENGYQGASVSIEDNVIVIGGGLASIDVCKISQLELVRQKVESRIKNFDIIEMEHKGIPDYLAEHGISYEDLGIKGTTLIYRRDIESMPLTTIPDDLSEDMIEKRKMARRKILENTTSKFLFKVLENTQPCGIHLENNLLVGLKVLTSKNINGELKTIEDSEKVIKGQTFISSIGSLPEPIQGLPMNGSVYDIVDQNSGKFNHLDSVHGMGNAITGKGNIKASRVSAKTVSELTMEDIIEIDSDSSEKIFEKVKEWQSKNNYDGDYFSWKAKVSQK;locus_tag=LOCUS_1560;note=WP_011392708.1 4Fe-4S ferredoxin (Moorella thermoacetica ATCC 39073) [pid:29.3%25%2C q_cov:39.3%25%2C s_cov:10.0%25%2C Eval:6.6e-09%2C partial hit],MGA_159
sequence03	MetaGeneAnnotator	CDS	36302	37636	.	+	0	ID=MGA_160;product=Na(+)-translocating NADH-quinone reductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A8K7;translation=MKKITIKKGHDINVAGKSRIDSLSEKFSETVSVSPVEFNYIKPKLLIEEGQSIRIGEPIFYDKNNPSIKWPSLATGVIEKIEYGERRAVLNIITRIDHEAENRQTSQITNLSSRDEVINFLLDKNLFPFIQKRPFDIVANPDEKPKAIIVSFANTAPLGTDFNFSLSQETKYINEALKNLKTLTVGKIYVAVNSSQFDFVDDLEFVEKIIVEGPHPSGNVGVVLNHVDPINNKDIIWTIKPHHLVILGKAFLNGTYDFKTMINLAGPGVKNPCYISTRLGANLNALCKDNLIDSSLRIISGDVLTGKQVSIENFLGFYHSSVSVILESFDRPFIGWLHPGGKSKYSVFNAYFGGNKNPFEFTTLQNGSHRALVPIDAWEKVFPMNIYINALIRSIEAGDFEEMEKLGIYECSEEDVALCSFVCPSKTDVAGIIRKGLNMIYLDK;locus_tag=LOCUS_1570;gene=nqrA;EC_number=1.6.5.8;note=Q8A8K7 Na(+)-translocating NADH-quinone reductase subunit A (Bacteroides thetaiotaomicron VPI-5482) [pid:36.5%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:9.5e-73],MGA_160
sequence03	MetaGeneAnnotator	CDS	37636	38811	.	+	0	ID=MGA_161;product=Na(+)-translocating NADH-quinone reductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UWS4;translation=MKFLKNIFEKTGKLVEKDKPLSWAYPIWEAADTIFFSTDSQTQSGPHIRDNMDIKRTMFFVVIALIPCYIFGSYNIGYLYSNALNIESNFLASFLFGLKFVLPILITTFVAGAICELSFAIIRKHEVNEGFLVSCALIPLTLPPNVPLWQVFIGTAFGIIIGKEIFGGVGTNIFNPALTARAFMYFAFPTKMSGDKIWAIGVDGYSAATALSIPANPKNYDTASNLFSQITQFDFSNMNLFWGLIPGSIGETNKLLILLGGLFLIYCGIASWRIMLSSVVGLILTASILNWLAPFSTNAMLTITPLQHLLIGSFLFGIVFMATEPVTSSHTNRGRWIYGFFIGFLTVIIRSINPAYPEGVMLAILIMNMFAPLIDYYVIQSNIKMRLSRNA;locus_tag=LOCUS_1580;gene=nqrB;EC_number=1.6.5.8;note=Q7UWS4 Na(+)-translocating NADH-quinone reductase subunit B (Rhodopirellula baltica SH 1) [pid:43.4%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:1.2e-89],MGA_161
sequence03	MetaGeneAnnotator	CDS	38804	39517	.	+	0	ID=MGA_162;product=Na(+)-translocating NADH-quinone reductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A8K9;translation=MHSNAYTLGFVFVVTAILGSILSFTKINVRDLQDYNLKADVKKNILRSLSFEEDVENPWTNDLVETIFSENVQAFCVDKLGNKIDCVLEDVDIEKNQSQLPVYIKVVDGDIAGIALPVAGKGLWSTIYGYIALEPDTDTVLGIQFYKHGETPGLGGEVEKSWFINNFKGKKIRDIQEEIIGIEVVKGKVNLENSKSIHQVDGISGATVTGRGVSIFIAEDLKRYEEYLNKVRTSGTI;locus_tag=LOCUS_1590;gene=nqrC;EC_number=1.6.5.8;note=Q8A8K9 Na(+)-translocating NADH-quinone reductase subunit C (Bacteroides thetaiotaomicron VPI-5482) [pid:35.1%25%2C q_cov:96.6%25%2C s_cov:97.8%25%2C Eval:2.9e-28],MGA_162
sequence03	MetaGeneAnnotator	CDS	39504	40157	.	+	0	ID=MGA_163;product=Na(+)-translocating NADH-quinone reductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64UR8;translation=MELFNSESKKIISDPINVNNPISLQVLGICSALAVTIRVDQAIIMSLAVIFVLSSSNVILSVIRNFIPNRVRIVIMLSVIASLVSVVDQLLQAYMYDMSKQLSVFVGLIITNCIVMGRAEAFALKHGPSKAFLDGIGNGLGYGMIIIIVSFFRELFGSGTITLPDGGAGYVLFSIPESWYAAGYENIGLLVLSPGAFIILGLVIWFQRELIGIEEEA;locus_tag=LOCUS_1600;gene=nqrD;EC_number=1.6.5.8;note=Q64UR8 Na(+)-translocating NADH-quinone reductase subunit D (Bacteroides fragilis YCH46) [pid:52.2%25%2C q_cov:95.4%25%2C s_cov:94.8%25%2C Eval:7.8e-59],MGA_163
sequence03	MetaGeneAnnotator	CDS	40158	40778	.	+	0	ID=MGA_164;product=Na(+)-translocating NADH-quinone reductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UWS1;translation=MGLEHYLSIFTKAVFIENIVLAYFLGLCSFLAISKKIDASVGIGMAVVVVLTITAPINWYLWEFLLKDGALSWIHPSLSELNLDFLKLIVFISVIAAMVQLVEIFMEKFSQSLYNSLGIFLPLIAVNCSILGGSLFMVEREYLLSETIVYGFGSGVGFLLAIVALASVRYRLRYSNIPPRLRGVAMAMLLTGLLSMAFMAFSGIDL;locus_tag=LOCUS_1610;gene=nqrE;EC_number=1.6.5.8;note=Q7UWS1 Na(+)-translocating NADH-quinone reductase subunit E (Rhodopirellula baltica SH 1) [pid:53.8%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:2.1e-63],MGA_164
sequence03	MetaGeneAnnotator	CDS	40775	42004	.	+	0	ID=MGA_165;product=Na(+)-translocating NADH-quinone reductase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5F6X5;translation=MIFEVLVGVLVFTIVIILLVILLNFIGNLLLPQGEVSIVINDDASKSLKVQTGGTVLSALASQNVYLPSACGGQGTCAQCKCQVIEGGGDILPTEQAYISRKDQKDHWRLGCQVKIRNDMKIKVPDEIFSIRKWNAIVKSNNNVATFIKELVIELPKDDPIHFESGGYIQIDVPAYNNIEYKNFEIEEIYRDDWDKFDVWQYTAENKNPIFRAYSMANHPAEGNMIMLNIRIASPPPNMPSVPPGIASSYVFNLKPGDQITVSGPYGDFHIKDTEREMIYIGGGAGMAPLRSHIFHLLKTENTKRKVSFWYGARSVKEMFYDEEFKDLEKQFSNFRYQVALSDPLPNDNWKGPVGFIHQVALDLYLKNHEDPTECEYYLCGPPMMISAVQKMLWDLGVEEDMIAYDDFG;locus_tag=LOCUS_1620;gene=nqrF;EC_number=1.6.5.8;note=Q5F6X5 Na(+)-translocating NADH-quinone reductase subunit F (Neisseria gonorrhoeae FA 1090) [pid:53.2%25%2C q_cov:94.1%25%2C s_cov:94.3%25%2C Eval:1.2e-127],MGA_165
sequence03	MetaGeneAnnotator	CDS	41988	43004	.	+	0	ID=MGA_166;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5F6X3;translation=MMTLVKKNLPYISFITLSLLIIYQLLSRNEIVLSGQTMGTTYSIKYIPKNFSLKKLDQSKIVNEILEEINQQMSTYITDSEISNFNSFSDTLWFDISPEFAEVVNTSFEYYQLSNGLYDITVMPLVNLWGFGPEIFLNKPSQEMIDEKLEFVGQDLLEIEGNRIRKKHPKVQIDLSSIAKGYAVDRLMKSLTYEDIMIEIGGEISTRSNKKDWKVGIVSPSLQNSQNDIEEIISLNNLSLATSGNYRNYYFDKSQSFFHHGINPKTGYPITASLGSVSILSEKSCMDADALATMVFAMSNLENLEDFLDSKSINSILIFLTKDGNYQKSFTGSLRKNN;locus_tag=LOCUS_1630;EC_number=2.7.1.180;note=Q5F6X3 FAD:protein FMN transferase (Neisseria gonorrhoeae FA 1090) [pid:37.5%25%2C q_cov:90.5%25%2C s_cov:89.7%25%2C Eval:1.3e-49],MGA_166
sequence03	MetaGeneAnnotator	CDS	43223	44536	.	+	0	ID=MGA_167;product=sodium:proton antiporter NhaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071215.1;translation=MNLVSHPLGIFALVIFTIAYAFVMTEEVTHLRKSKPVLFAAGIIWGSLAWYARLHGHAEHVEESIMHAFEEFSQLMLFLLVAMTYINSMTERNVFQKLRSILLEQKYSYRKLFWITGIIAFFLSPIADNLTTALTMCAVVMAVGAGNKNFVSISCVNIVVAANAGGAFSPFGDITTLMVWQSGHVEFTQFFHLILPSLVNFLVPALIMSYFIHGSSVDVENKPVKLKKGAIPIIFLFLFTIFLAVSFENILHLPPVFGMMFGLSLLQLYGYYLKTSYSKSTEIQRDGSDAPFGIFQQIAQAEWDTLLFFYGIILCVAGLAEMGYLAMLNTFLYEGYGFTVSNILTGIISAVIDNIPVMFSVLQMHSQDAMDLSQWLLVTLATGVGGSLLSIGSAPGVALMGQAKGLYTFSSHLKWSGVIFLGYVLSILVHLLYWDLI;locus_tag=LOCUS_1640;gene=nhaD;note=WP_011071215.1 sodium:proton antiporter NhaD (Shewanella oneidensis MR-1) [pid:53.7%25%2C q_cov:98.6%25%2C s_cov:90.6%25%2C Eval:4.4e-131],MGA_167
sequence03	MetaGeneAnnotator	CDS	44536	45075	.	+	0	ID=MGA_168;product=ATP:cob(I)alamin adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003724741.1;translation=MRITKVTTRNGDYGKTNLAKGDVVSKDSLIIKTLGEIDELNSHIGFAISLINEPNIVDELKSIQNHLFDMGGLISLFDNENRFSQEKVIFLDHRIEYYNSELSPLSEFILPGGDQFSSLLHILRTITRRAERSLVSLFLETINDDNNMLKYLNRLSDYFFVLSRQYNHQKGINENIWKR;locus_tag=LOCUS_1650;note=WP_003724741.1 ATP:cob(I)alamin adenosyltransferase (Listeria monocytogenes EGD-e) [pid:42.4%25%2C q_cov:97.2%25%2C s_cov:93.6%25%2C Eval:8.5e-33],MGA_168
sequence03	MetaGeneAnnotator	CDS	45081	46073	.	+	0	ID=MGA_169;product=1-pyrroline-5-carboxylate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965110.1;translation=MDFKSISSLISKSNKIFISSHINPDGDSLGSSYAVYHLLSQLGKDCMIINHSPLPKMYNFLNKENIFYEHNSETAAFIKNSDLGIILDIGDFYRLGDVALLLDEIENIELLNIDHHNITDLKKFDYNFINTKSSSVGEIIYELVINEFDNYMSKEILEGIYIAVLTDTGSFKHNNTTELSHLIAKESIKRGVDTTKIYQSIYENSSRSRIKLLGNVIQNLKFDCNNQLVWFGVNQDMIKEVGGSNEDFEGFTDFFRSINGVEISLMLYDLKGKVRISLRSKGLYKVDELAKQMGGGGHPYASAALIEGDFSEVKKSVLNLISNYINQTKK;locus_tag=LOCUS_1660;note=WP_010965110.1 1-pyrroline-5-carboxylate dehydrogenase (Clostridium acetobutylicum ATCC 824) [pid:33.9%25%2C q_cov:93.6%25%2C s_cov:95.0%25%2C Eval:4.3e-45],MGA_169
sequence03	MetaGeneAnnotator	CDS	46077	46943	.	+	0	ID=MGA_170;product=4-hydroxy-3-methylbut-2-enyl diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q749Y8;translation=MKIILAKDAGYCFGVRDAVNKAYEIADKFGEVYMLGDIVHNENVVRDLESNGVKVVSELDQIPDNKPVLFRAHGTPKDVWDSAHKENMNIIDATCPLVHEIHHEVRALHKEGRKIIIIGDHGHDEVIGIASQIPDPIIVSSIEEAKALRKTKKAGVVSQSTQTIENVQDIINVLMTKVFDLRFVNTICYPTKRNQEQIKELSVNTDMMIIIGSFTSANSKRLTELSLSKNKKTFQVTCAADIDSKWFENKISTLGISAGASTPDWIIESVIKKVKEITKTTSKEIIYE;locus_tag=LOCUS_1670;gene=ispH;EC_number=1.17.7.4;note=Q749Y8 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Geobacter sulfurreducens PCA) [pid:40.6%25%2C q_cov:92.0%25%2C s_cov:93.6%25%2C Eval:1.1e-54],MGA_170
sequence03	MetaGeneAnnotator	CDS	46936	47811	.	+	0	ID=MGA_171;product=pyridoxal 5'-phosphate synthase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NHE6;translation=MSNKDTFREKVALAEMLKGGVIMDVTNVEQAKIAEESGAVSVMALERIPSDIRADGGVARMSNPQMIKEIQENVSIPVMAKCRIGHFAEAQVLEALEVDFIDESEVLTIADEEAHILKHPFKVPFVCGARNLGEALRRIDEGAAMIRTKGEAGSGNIVEAVRHMNMINKQIIELTDKNLDEKSSEFRVPVELVRYVFQNKKLPVPNFAAGGIATPADASLMMQLGAETVFVGSGIFKSSDPLERAKSIVHAVTHYKNSKEVLNASFHLKDAMKGILMSDLSENEKFSNRGD;locus_tag=LOCUS_1680;gene=pdxS;EC_number=4.3.3.6;note=Q5NHE6 pyridoxal 5'-phosphate synthase subunit PdxS (Francisella tularensis subsp. tularensis SCHU S4) [pid:66.2%25%2C q_cov:96.6%25%2C s_cov:97.6%25%2C Eval:4.5e-96],MGA_171
sequence03	MetaGeneAnnotator	CDS	47813	48373	.	+	0	ID=MGA_172;product=pyridoxal 5'-phosphate synthase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NHE5;translation=MIGVLALQGNFQSHLEILNKIGKTSKEIKFSKELDEVEGLIIPGGESTTIFNLLNREKNFVSEIKSFADSFPILGTCAGLILMSQLKNDKIVKSLDIIDALIERNAYGRQINSFSASIQLKNNLFQERLIQGSFIRAPKIISYGESTEPFAFFQNEVVGVKSGKHFGITFHPEIFKETFIHEICFS;locus_tag=LOCUS_1690;gene=pdxT;EC_number=4.3.3.6;note=Q5NHE5 pyridoxal 5'-phosphate synthase subunit PdxT (Francisella tularensis subsp. tularensis SCHU S4) [pid:39.2%25%2C q_cov:97.3%25%2C s_cov:95.0%25%2C Eval:2.7e-32],MGA_172
sequence04	MetaGeneAnnotator	CDS	319	1404	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNFTLLLVSYIFLSCQQENFDSTKVNLKSLNTSQENAITNAIQIASPAIVAIYADQINSTFEKVGWFYKEDLVKERTRGSGFLINSDGYVITNAHNFITSTTKGYGNIKVVLMGGKIYNAEVVGYDIVSDIALLKIPGSDFDFCYIGDSNNLMIGEWVIAMGNPLNLSSKNDFQPIASAGIVSATGVNLGFQNKVNLNNRIQTDAAINPGNSGGPLLNSNGQVIGINSFVLDNNQNLGFAIPINYAIKIAENLKLSALNNDFGFIDRSWDSGLSLRDVNINGQKNVIVDYINYDSSASNKDLYRGDKILQVEDYKIYSIEDFKNVFDIYDFLPGESLNLLIERSDEILQVELIIGKYEK;locus_tag=LOCUS_1700;note=WP_004081291.1 serine protease (Thermotoga maritima MSB8) [pid:34.1%25%2C q_cov:90.3%25%2C s_cov:71.9%25%2C Eval:3.4e-38%2C partial hit],MGA_175
sequence04	MetaGeneAnnotator	CDS	1394	1675	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRGFKNIFLGLFIGALIGTLLGEILSFILPDGSTVEQFFINTTEFVFGSFDNTSAIVDLGIIAFNFGIKFKFNVCSLIGFGIAYYLLKYLR;locus_tag=LOCUS_1710;note=MGA_176
sequence04	MetaGeneAnnotator	CDS	1690	1869	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLGTGELVIIFLILLLLFGGKRLPGLARGFGKSLREFRGALEETKDQINNSEDSDKN;locus_tag=LOCUS_1720;note=MGA_177
sequence04	MetaGeneAnnotator	CDS	1869	3206	.	+	0	ID=MGA_178;product=glutamyl-tRNA(Gln) amidotransferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8R679;translation=MIKSNSYNQKFKNYKDKIYSSSTNSVVRTRFDSVKENPKKLLSNKFFLIKDNISIAGEELTCSSKILEGYIAPYNATVISKIEQNGGSIIGQTNMDEFAMGSSSSFSKFGPVKNYYNNSKVAGGSSGGSANAVAEGLCNIALGSDTGGSVRQPASFCGIYGLKPTYGRVSRYGLVAHASSFDTIGILSKNLEEVIDTFSVIAGYDPNDSTSVNSDVPSLKELKTIKLPKKVGVLSKDFLKNINPEIFDIYFSKVKKINELGIKTSEIELPYFKYCLPTYYILTMAEASSNLSRFDGIRYGNRQSDEDLNNLYFESRSLGFLNEVKRRIMSGTFILSSGFYDAYFSKACKVRRLIKNSYDMLFEENDALFIPTTTSVAHDIDRKNSSPVEAYLADIFTVTANLCGIPALNIPAGFSKKENLPFGLQILSNSFKEETLFSLAHLLKE;locus_tag=LOCUS_1730;gene=gatA;EC_number=6.3.5.7;note=Q8R679 glutamyl-tRNA(Gln) amidotransferase subunit A (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:47.5%25%2C q_cov:99.1%25%2C s_cov:91.8%25%2C Eval:2.1e-104],MGA_178
sequence04	MetaGeneAnnotator	CDS	3228	4196	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787921.1;translation=MIFQNPQFFLFFIFLAIIIVLRKVFFSKNDSKLLFSDFSNLQDFFGKRGQFKIIFLNSIFFLMISLIIIALARPTKTFSEEKIEVQSIDILLVLDISSSMLAEDFQPNRIEAVKLSAKEFINNRKSDRIGLLVFGKETFIQCPLTIDYIVLNSLLDEITVIDPQFDGTAIGIALATGINRLRTSTSKSKVMILLSDGSNNAGSIDPIAAAKIANENDIKVYTIGAGTNQAVTRIPNRGLIKNEIDEETLKNIAKETGGEYFRATNKNSLNEIYNQIDSLEKTSVEVEYFSSRRELYIFFLIPAFLLLIVFEILNLIYFKRIE;locus_tag=LOCUS_1740;note=WP_005787921.1 hypothetical protein (Bacteroides fragilis YCH46) [pid:47.3%25%2C q_cov:79.5%25%2C s_cov:79.8%25%2C Eval:2.1e-57],MGA_179
sequence04	MetaGeneAnnotator	CDS	4193	5194	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFEHFFIASISLIILLSIYIISFFYSRERMLFSRSFFNKSFKKILVKNYDENILRTKKLLKFLASIFLIISISGIKSGKTIKPIERRGSDVVFTVDISKSMNAEDVIPSRLEKVKFEIIKTIESLTGDRVGIVVFSGANFLYLPLTLDYDAAILFTKNIDSQMISLNGTLIPQAISTSIKALATDEDRGKLIFLFSDGEDHNTDDINVSNYNIPKNIVLNVIGVGTNEGSLIPDDKELKSYIKNSDGTLVISKVNDSFLSKIAQIGKGQYLRINKSENVSEIINSLIMNSEKNALNNFEFEDYNQRYQYPLFISFLFYLAFYILPSGRRKSW;locus_tag=LOCUS_1750;note=WP_011962309.1 BatB protein (Flavobacterium psychrophilum JIP02/86) [pid:31.5%25%2C q_cov:77.2%25%2C s_cov:74.9%25%2C Eval:2.0e-34%2C partial hit],MGA_180
sequence04	MetaGeneAnnotator	CDS	5188	5895	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIFQYAIFLSQIFAQDIGFKMYQNNDFDSAINYYKKLLENKQLNNFRDHIEFNLATILTQIDSLDSAKKYFEEAILDSTHPNSNFYYNYAHNLYSSNDLSNSLDNFKKAVIKDPSNMQARMNYEFVKKQINQSNPPAPGSKIEDPKTDNQDKNEEERPSNRPDNNSKNENKEDQTNSSQDDSSNKPQDTKNNQNNEFQSNQNSENLLNALKEKEKVNKKRKLNTYPEGSLKSW;locus_tag=LOCUS_1760;note=MGA_181
sequence04	MetaGeneAnnotator	CDS	5934	7583	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQEVKVILSQNKISTNQSLTLSVEIKNTEQNPEIDISKVLNNFSIVSGPSLSSEYRFVNGQKSSSRKLSWILIPLSEGFFKYEYLNVKLGSKIITTDGFEIEVTKDNDSQKSAEEVFLKIDVSSKELFVGEKTTLSYTFFTRVPVKILSTEFPEFKEFWVEKIVDPTGQEISPDQWKDIDQNGFSYKYLKIYEVDIFPMNEGIFELEPMIIKAQTKNDDPNFKRLFWEDPFFDTFSQRTRANILVSNPVTVKVKKIEDLPNNFSGAVGEFSLNSYLSSEKFEVGVPFSLTIQLKGSGNFYNIARPKISFTDNFDIFEGQTSIEYDINRKKEGFIDWEYNLIPRKEGEYEIPSIEIDYFNTVTKQWTKIKLDKKIFSVKKSYDDQKILRTINNPPMVLSLYQLDADLEIKDKVVSNFSIITLSLSFIMLFFIYSANTVKTFLNKNIRFLQKRTSLTSALIELNNSKFIEKDFAKILSKYLYKKNIINNKNLDNKEILNILSNYLKEKELLMLIKIFKKFDQAKFGNVKENDEKVLQDLIQIFKDIEKST;locus_tag=LOCUS_1770;note=WP_011405278.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:21.1%25%2C q_cov:61.2%25%2C s_cov:57.6%25%2C Eval:1.1e-17%2C partial hit],MGA_182
sequence04	MetaGeneAnnotator	CDS	7567	8310	.	+	0	ID=MGA_183;product=BatE protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962306.1;translation=MKNQLKTKILLFFGVCTLFGFNSNSIENDMIQKAESYYVKGEFQNSIVVYERILEMNLHSPSIYFNLGNAYFQINELGNSRWAYETGLIYYPRSSELRSNFETLKKTITNDIAIDSNTFNRILKMVTLNELINSICVLLFLLTILFILRKYRKINDIFYPNSIIIFSLFFLTFIIILKVILSKEFQGIVIANQPEVFIELENKIIDNNIVLFDGNKVSIINQKKNFYEISLIDGRKGWINKNQLRNL;locus_tag=LOCUS_1780;gene=batE;note=WP_011962306.1 BatE protein (Flavobacterium psychrophilum JIP02/86) [pid:24.6%25%2C q_cov:87.0%25%2C s_cov:90.7%25%2C Eval:9.3e-17],MGA_183
sequence04	MetaGeneAnnotator	CDS	8315	8731	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQILFLLILFSNVLMAQESSTLKIDDFKDNPPAFPKIILPGYEEDKENKNSFLLNEELEGYRIQVATSTSEESLISIRTNLEKLTNEKIYIIFELPNYKVRVGNYLNRKDAEVLLKKLSRNGYRYAWIVPTKIERNN;locus_tag=LOCUS_1790;note=MGA_184
sequence04	MetaGeneAnnotator	CDS	8731	9462	.	+	0	ID=MGA_185;product=putative transcriptional regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KBW7;translation=MSGHSKWSTIKRKKGALDQKRGKSFSVLSKEITIASRLGGGSIDENPRLRLAVKKAKSLNMPNANIDKAIKKGTGEIEGLSIEEVTYEGYGPFGVAFLIEGATDNKNRTVADIRHGFNKFGGSLGQNGSVAWNFNRFGVIQISCSNYEEEKVFDLSVQCDAKDFLIDDDVYRLIFNPNDLYSNVEKIEKNGIEIENSFLAFLPNEYVSLHVEEFSKVNDLIDFLDELEDVQNVFTNLTLKEDS;locus_tag=LOCUS_1800;note=Q8KBW7 putative transcriptional regulatory protein (Chlorobium tepidum TLS) [pid:49.6%25%2C q_cov:99.2%25%2C s_cov:96.4%25%2C Eval:1.6e-61],MGA_185
sequence04	MetaGeneAnnotator	CDS	9459	9926	.	+	0	ID=MGA_186;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2P3;translation=MIVVGFDPGLANTGFSVVEKKSNDFFLIDAGVINPKVKDPLELRIHTIFNESLKIIKKFHPNYVAIENVFFGKNVQSAIKLGQAKAAIMLAATDLEVKLVDYTPREIKQSITGNGSASKDQVEFMVKKIFKLNDGFNKKDISDAIAIGWCALNRI;locus_tag=LOCUS_1810;gene=ruvC;EC_number=3.1.22.4;note=B8E2P3 crossover junction endodeoxyribonuclease RuvC (Dictyoglomus turgidum DSM 6724) [pid:36.1%25%2C q_cov:94.8%25%2C s_cov:93.0%25%2C Eval:1.2e-25],MGA_186
sequence04	MetaGeneAnnotator	CDS	9923	10513	.	+	0	ID=MGA_187;product=Holliday junction ATP-dependent DNA helicase RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WA87;translation=MIDSITGIIKSKSPSELKVSNGGFVLKINICIKDFELVGELGSEITILTYLNVKEDLLELYGFIDEDRRNIFLKLIQVSGIGPKTAIGLLSNITVESFKQNILSEDHNSLSLIPGIGPKTAKRIIIELKEKISSSFTNKTSINSIQFSYDDLFTAISSLGYKKNQIDKAVQRLFSESNSENIQIEDAIRRILTIIK;locus_tag=LOCUS_1820;gene=ruvA;EC_number=3.6.4.12;note=A9WA87 Holliday junction ATP-dependent DNA helicase RuvA (Chloroflexus aurantiacus J-10-fl) [pid:39.3%25%2C q_cov:88.3%25%2C s_cov:88.7%25%2C Eval:6.7e-24],MGA_187
sequence04	MetaGeneAnnotator	CDS	10594	11583	.	+	0	ID=MGA_188;product=aminomethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GXW3;translation=MPIQYQGIILEHNYVRNSVGIFDVSHMGQFKISGSNAKDFIQKITSNDINKLTPGKAQYSLLINFDGKIVDDLIIYHLDDYYLMVVNASNIEKNESWILGQIDQGVIFENLSDEMGLIAVQGPKSRSVLQNLFPEILNLNFYENTLMKNQVFIARTGYTGELGFEIYAFNHRLNEIWDNLLSIDGVHPVGLGCRDSLRLEMGYCLYGNEISENENPYEAGLGWVTKTSTNFIGANKLIDCLPSKKLIALTMVDRGIPRKGYKIFSASSKEEIGYVTSGVFSPSLQKGICLAYVESSFSKEKDFFISIRDNYLRLIRNSLPFFKEGTLYS;locus_tag=LOCUS_1830;gene=gcvT;EC_number=2.1.2.10;note=A6GXW3 aminomethyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:46.9%25%2C q_cov:98.5%25%2C s_cov:93.3%25%2C Eval:4.7e-76],MGA_188
sequence04	MetaGeneAnnotator	CDS	11580	13880	.	+	0	ID=MGA_189;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963704.1;translation=MREKFKIQLIGWLLALFSFLIVGAILTYDFSEDPNLFAKEIKNPFGITGIYIGYYLVKLGFGYGSLLIPAALFSLSIFLISNKKISLLGLLQRIQYELIFLFLISITLGFIENVFLNKDTLSFQFSGYIGGIIFSTVFDWLGAYGSLSALIFTWFLILQSIFRWDFKKLYQQFFKTISSIKIPKVRIPEIKISTIKNKSDSVVKKSIIDDSQFKNDILKTEVELTESIKKQEEFIEDHFFNDEDKIPSPNEEDIEVIENNINIEKGIVELEADIDESRTNSFLFKDWKFPSTDLLLSENSSENDLNDDELKERSDFLKISLSNFGVEGETGSIKTGPVITLFELEPAQGVRVNKFVQLSDDIARVMEAKSVRIIAPIPGTNLVGVEIPNKNPQTIYLKSVINSEKYLNSRAKLKLAIGKGTLGEISILDLTEMPHLLIAGTTGSGKSVSLNTIIVSLLYQLKPDEVKFVIIDPKKVEMSLYKGLEKHYLLKFDGIDESIITKKDNAILALRSLEKQMDTRYDILAEAGKRNIDEYNQEMKKAKKEIMPYIILMIDELADLMMYSPRDVETPIARLAQLARAVGIHLIVATQRPSVDVITGVIKANFPARIAFQVATRIDSRTILDEIGADKLIGKGDMLYQKPGSSSPIRMHGAFVTLKEIEDLVSHIANQPEPNELIIETVKSDTNSSSNLGDSIEDELLTQAIELVVTNNQGSISLLQRRLSIGYSRAARLIDEMERLKIVGPFTGSKAREVLVDESYLEMIDE;locus_tag=LOCUS_1840;gene=ftsK;note=WP_011963704.1 DNA translocase FtsK (Flavobacterium psychrophilum JIP02/86) [pid:38.8%25%2C q_cov:97.8%25%2C s_cov:94.4%25%2C Eval:3.9e-131],MGA_189
sequence04	MetaGeneAnnotator	CDS	13873	14433	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFFSSLVFFISLINAQTAEKNIENFITGLNNHQLEIEVINEDSKNYIAILSIYNDDLYFDTTSFDSLITVIQGNQISTFDFSKNKVIKENFEISLLDFFQTKNLSKLQLISSVTNGSQVNYKFIYQDQNINVVFDKESQLISYLEVFQDEINIFKSNILRKAGFDLDSLYWTQDTKWEIIDWTE;locus_tag=LOCUS_1850;note=MGA_190
sequence04	MetaGeneAnnotator	CDS	14406	14978	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYRLDRIIKFDAIFFDRDGTINEDIFGYINSLEEFKYFSFSLEALKNFSSLTDNFFIVTNQSGLETGVVKLENLELINQKIFSDFKKMKLPLKKIYYANSYKEGFDEMRKPGIGMFNIAKSEFDINLENSLMIGDTYSDMLAGKRVGMKTIFLRTGFGERYLAQVKAENIADLICDNLLTASLEVILK;locus_tag=LOCUS_1860;note=B8DZR9 phosphoheptose isomerase (Dictyoglomus turgidum DSM 6724) [pid:38.0%25%2C q_cov:93.2%25%2C s_cov:45.2%25%2C Eval:7.2e-20%2C partial hit],MGA_191
sequence04	MetaGeneAnnotator	CDS	15194	15880	.	+	0	ID=MGA_192;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFT1;translation=MEENQIPFNGSNSEASKLCFNKAAVKILAKKNNILTPEFVQIKEINGVLESNNFSVFKDYVVKPNQQGSSLGIYRKKDLINECEKKIKSIFELDNEILIEEFIDGREITVGILNNKTLPIIEIKPRSEFYDFRSKYSKGFCEYVCPAEIDSTTEQKLIENSLRIHQLTGCNVYSRVDFRLDKKGTPWFLEINTLPGLTETSLFPLACKKSGINFEKMISNLINLSNEK;locus_tag=LOCUS_1870;gene=ddl;EC_number=6.3.2.4;note=B5YFT1 D-alanine--D-alanine ligase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:36.6%25%2C q_cov:100.0%25%2C s_cov:76.0%25%2C Eval:6.4e-38],frameshifted%2C insertion/deletion at around 15868,MGA_192
sequence04	MetaGeneAnnotator	CDS	15870	17255	.	+	0	ID=MGA_193;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5FM34;translation=MKNNLKFHNSISGKKETFKPIDNSQVLLYGCGPTVYDSPHLGNFRTFVFYDLTIRVLELNDFSVKSIINITDIDDKIISRANSEKIAINEITDKYESVFIEQWNKLKNQPPTQFIRATDNITKMISFIGHLLDENFAYVVNRSVYFDSRNPKINYEKFVSVEEVNEEQNSEKKYQSDFALWKAWKKEDKEIFWDSPWGQGRPAWHTECAVIASNYLGNSIDIHCGGIDLKFPHHQNESVQVEALSEDIFTKYWLHSEHLLFEDDKMSKSLGNILSIQSLEKEFSIESIRLFLMSSHYRSKISFNRNLLIESQKMISKIERFIDNFNLRLSSPSFKNYDFTNQEIDFINALNDDLNTPKALGVFFNFLNEFNKKNISSSNNLHNSERYKAESFVNLFNSIFQCLSDSSSNPFPENVQKLLESRELARNEKNWELSDQIREKLSELGWNVEDSSQGQKLIRKK;locus_tag=LOCUS_1880;gene=cysS;EC_number=6.1.1.16;note=Q5FM34 cysteine--tRNA ligase (Lactobacillus acidophilus NCFM) [pid:34.5%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:1.6e-83],MGA_193
sequence04	Aragorn:1.2.38	tRNA	17333	17406	.	+	.	ID=Aragorn_8;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence04	Aragorn:1.2.38	tRNA	17471	17554	.	+	.	ID=Aragorn_9;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence04	Aragorn:1.2.38	tRNA	17561	17634	.	+	.	ID=Aragorn_10;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence04	Aragorn:1.2.38	tRNA	17643	17716	.	+	.	ID=Aragorn_11;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence04	MetaGeneAnnotator	CDS	17753	18943	.	+	0	ID=MGA_194;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAH0;translation=MAKETFVRNKPHCNIGTIGHVDHGKTTLTAAITQTQSLLGLAAKRDFDTIDNAPEERERGITIQTAHVEYETDNRHYAHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHVLLARQVNVPSLVVFMNKVDQVDDPELLELVELELRDLLNEYEFDGDNTPIVKGSALKALENPGDADATACIAELMKACDEFIPQPKRDIDKPFLMPIEDVFSITGRGTVGTGRIESGKVKVGDEIELVGLGSNLTTVITGVEMFQKTLTEGEAGDNAGLLMRGIEKTDLKRGMVAAKKGSIKPHTKFSANVYVLKKEEGGRHTPFFNNYRPQFYFRTTDVTGVVTLPSGTEMVMPGDNIEINVELITPIAMNEELRFAIREGGHTVGAGVVTKIVE;locus_tag=LOCUS_1890;gene=tuf;note=Q8KAH0 elongation factor Tu (Chlorobium tepidum TLS) [pid:74.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-170],MGA_194
sequence04	MetaGeneAnnotator	CDS	18943	19107	.	+	0	ID=MGA_195;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RSS4;translation=MAGNSKRAIVRLESTAGTGFRYTVTKNKTKHPEKLEYKKFDPVARKHVLFKEIK;locus_tag=LOCUS_1900;gene=rpmG;note=Q9RSS4 50S ribosomal protein L33 (Deinococcus radiodurans R1) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:9.6e-12],MGA_195
sequence04	Aragorn:1.2.38	tRNA	19117	19190	.	+	.	ID=Aragorn_12;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence04	MetaGeneAnnotator	CDS	19204	19386	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSRIKDFFSQVYIEMNKVVWPSYQELRGSTYLIIVFFILFAVFLFGIDWVIQKVIRLFV;locus_tag=LOCUS_1910;note=MGA_196
sequence04	MetaGeneAnnotator	CDS	19383	19916	.	+	0	ID=MGA_197;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG20;translation=MNWYSLRVISGKEEKIKESIFRELSLDNSISTDIEDILVPMENVVEIKNGKKQIKKKVYFPGYIMMKMNMNQQSKFFIENINGVMSFVGPKGNPTSLSDDEVRRMTGVNDVDEESLLLADNIPFKVGDAVRVIDGPFKDFDGLVQEISDRSTIKVNVNIFGRPTPIELSVNQITSEN;locus_tag=LOCUS_1920;gene=nusG;note=Q8KG20 transcription termination/antitermination protein NusG (Chlorobium tepidum TLS) [pid:39.7%25%2C q_cov:97.7%25%2C s_cov:89.5%25%2C Eval:3.9e-30],MGA_197
sequence04	MetaGeneAnnotator	CDS	19918	20349	.	+	0	ID=MGA_198;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG19;translation=MAEKKEITGLIKLQIPAGKANPAPPVGPALGQHGVNIMDFCNAFNEKTKELQGTLTPVVITVYKDRSFTFITKSPPASTLIMKELNLSKGSQEPNKDKISTISFQQCKKIAEIKFKDLNCHTLEQASEMIAGTAVSMGIEVLR;locus_tag=LOCUS_1930;gene=rplK;note=Q8KG19 50S ribosomal protein L11 (Chlorobium tepidum TLS) [pid:63.5%25%2C q_cov:95.8%25%2C s_cov:97.2%25%2C Eval:3.2e-45],MGA_198
sequence04	MetaGeneAnnotator	CDS	20346	21020	.	+	0	ID=MGA_199;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RFN6;translation=MSKYFKSIEDKFDRNFNYNVSDAINLLLSLKRSSYAESVDVAFNLGVNPRHAEENIRLSINLPNGVGKEVSVLAIVNADKEKEAKDAGADLVGKEEFLEKIKNGWADVDRIVCTPDLMVELGKLGKILGPKGLMPNPKSGTVTTDIANSIKELKAGKIDARVEKNGILHSSIGKTSFSEIQLKENFDTFKQAVLSAKPNSFKGKYLKSISISSTHGPGIKVEID;locus_tag=LOCUS_1940;gene=rplA;note=Q2RFN6 50S ribosomal protein L1 (Moorella thermoacetica ATCC 39073) [pid:48.9%25%2C q_cov:97.8%25%2C s_cov:94.8%25%2C Eval:2.9e-56],MGA_199
sequence04	MetaGeneAnnotator	CDS	21022	21540	.	+	0	ID=MGA_200;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18CE8;translation=MPSIKNIESVKTVTEKFKKASAMYFADYKGLDVSAITQLRKDCYANNVDFTVAKNTIIKIAAKEVGIEGLDEMLSGQTAVALSYDDPTNPAKVIKNFKKDFEKPEIKGLIINGEIFGPDQFNRIASLPSKEQLLSQLIGMLQSPMSKLSATLASPLSGFLGTLEQMKSKKGS;locus_tag=LOCUS_1950;gene=rplJ;note=Q18CE8 50S ribosomal protein L10 (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:41.3%25%2C q_cov:82.6%25%2C s_cov:85.1%25%2C Eval:2.4e-26],MGA_200
sequence04	MetaGeneAnnotator	CDS	21545	21928	.	+	0	ID=MGA_201;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0A0X1;translation=MSVKREDVLKYLEEANMIEISELVKDIEEKFGVTAAVPVAAAAAAPAGDAGAADAGEKSSFNVVLAAAGQSKIGVIKIVREITSLGLKEAKELVDSAPKAIKEGVSKDEAEALKSQLEEAGATVELQ;locus_tag=LOCUS_1960;gene=rplL;note=P0A0X1 50S ribosomal protein L7/L12 (Neisseria meningitidis MC58) [pid:54.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-31],MGA_201
sequence04	MetaGeneAnnotator	CDS	21968	25717	.	+	0	ID=MGA_202;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1Q5;translation=MKNKINKRHNFEKIKSIEDLPNLLDLQIESFKDFLQEDTTPAKRDMFGLHEAFSTIFPLQDTHENYTLEYNNYHIGKPRYTPRECADRGITYSVSIDVDLTLKITDEKDKKKFSQIIPQTVYFGNIPYMTDKGTFIINGAERTVVTQLQRSPGAFFDHKLHPNGAKLYNARIIPIRGSWIDFTTDINDVLFTIVDRKRKFPSTILLRALGYSSDKNLFDAFGLTLEINPVKIDESELTNYVIIEDIIDTNSGELFAESGTPLNESIIKLFKKNKVKTISVVDIKNSIDSMMLYNTILKDPTKNTEDALLRLYVLLRGTDAPSIEAAEKFINRLFFFPKKYDLGAVGRYRLDKQFNLDNSGNENVLTLDDFLTTIKYLILMRKGLKAPDDIDHLGNRRVRTVGEQLKVQFNSALARMVRTVYERMNLRESETITPQDLINSRLVTTVINTFFGTSQLSQFGDQTNPLAEITHKRRISSLGPGGLSRERAGFEVRDVHYTHYGRLCPIETPEGPNIGLISSLAMMARVNKHGFIEAPYRLVEKSTLSNKVSYLSADDEDRSLIAQSGLSLNKSNKIVDERIRVRNKGDFPIVSSDEVNYADLVPNQILSVAAALIPFVEHDDANRALMGSNMQRQSVPLMKTDSPIVGTGMEGKVAVDSKAVVLSPVSGEVVHVDSKKIVIKDNSSDGVHLAEDEDLVTVNLIKYARSNQNTCYNQKSIVSEGDKVKIGDVIADGASTDNGELALGKNVLVALMPWNGYNFEDAIVINERLVRDDVFTSLHINEVELEVRDTKRGEEELTPEIPNVSEESTAQLDENGLIRVGALVKEDDILIGKVSPKGETDPSPEEKLLRAIFGEKAGDVKDSSKKAEPGVQGVVIKTDLYEKASKSSKVKTNEQIKLLQKSKIDAEKNLRAKRDKIILSLLKDKSSLGIKDLSGKVIIKKNTILSEKKLSSTNFELLSVEEPWVSAPKTWDKVLSALNSFEKNLSKIEDKLETEIFKLKEGDQLQPGILKLAKVYVANKRKISVGDKMAGRHGNKGVIATIVPEENMPFMEDGTPIDICLNPLGVPSRMNLGQLYETMLGLAGKILDEKYATPVFNGASPEEVAKKMEEAGLSNTGKATLYDGLSGEKIDNPVLVGYMYMMKLYHMVDDKMHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALQAYGAAHILREILTIKSDDIEGRSRIYSALVKGEDLPDPSIPEAFNVFMKEIQGLALDITLD;locus_tag=LOCUS_1970;gene=rpoB;EC_number=2.7.7.6;note=Q2S1Q5 DNA-directed RNA polymerase subunit beta (Salinibacter ruber DSM 13855) [pid:51.2%25%2C q_cov:99.4%25%2C s_cov:98.4%25%2C Eval:0.0e+00],MGA_202
sequence04	MetaGeneAnnotator	CDS	25731	29903	.	+	0	ID=MGA_203;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NJ8;translation=MYNKRNTITLKLASPEKILEGSFGEVLKPETINYRSYKPEKDGLFCEKIFGPVKDFECHCGKYKGIRYRGIICDRCGVEVTTKKVRRNRMGHITLAVPVVHIWFLKSIPSKLSYILGKSAKQLESVIYYENYLIINPGKSGYKRFELVDEQAYEDLEKEFGYEAVSPEEREDESYFYAAMGGEAIKDALSEIDLLELKRDLEVIAATSTSMQKKEDALKRLKVVKDFANERNNKPEWMIISILPVMPPELRPLVPLEGGRFAASDLNDLYRRIIIRNNRLKQLMDIQAPEVILRNEKRMLQEAVDALFDNTKRKTAIRSGSKRPLKSISDMLRGKQGRFRQNLLGKRVDYSARSVIVVGPELKLTECGIPKNMALELFKPHLIRELIRRDLAATPRSAKLMIENKEVFVYEILESVVKEHPVLLNRAPTLHRLGIIAFQPILIDGKAIRVHPLVCSAFNADFDGDQMAVHVPLSIPSQLEARILMMASQNILHPASGKPITLPSQDMILGCYYLTKEKNGQLGEGKSFGSIEEVMMAYENKKVGLHAKINLRDNGIWYKNTTAGRAIFNSIVPDELGYVDEVISKKKLSFLIGDSFVKAGNDRTVQLLDDLKEIGFKTATKSGISISISDILIPSLKDEIIRDAEKQVDQIQARFNRHVLTEGERYNKVIDVWTKTTSQVAEVLMNNLRSDDQGFNPVYMMADSGARGSGDQIKQLAGMRGLMAKPKKSMIGGGEIIESPIQSNFKEGLSIMEYFISTHGARKGLADTALKTADAGYLTRRLVDVAQDVVVFEEDCGTINGITVSDLKEGEEVVESISERILGRTSSDKIVIDGETIIDQGQVFNETISKIIEENNISRVRIKSILTCESRRGVCAQCYGWDLTRRELANKGTAVGIIAAQSIGEPGTQLTLRTFHIGGTASRIIEQSDMEAKHAGVVSFSDSFDFAKTIDEDGDEVTRCLSRNSKLFILDKNGKVSDEYQIPYGANLSISSGDVVKKGDILFSWDPYTDIILARQSGIIKMKDFIEGDTYQEEAVEGGKKQKVVTESKDRKLSPQIEIYTTKGDLISGGTILPIKATLVVNDGQKVMKGQTLVKIPKDVGKTRDITGGLPRVAELFEARKPLNPAIVSEINGKVEFGEIKRGVRKISVIPSNGKEIVYKIPYGKHVVVHEGDNITAGTPLCEGSISPSDILNILGPNAVREYLVNQIQEVYRLQGVGINDKHIEVIVNQMMKKVVIKDPGDSTLLLNERLDKQDLFALNDSMKGMVIIDESGDSNLDIGTMISEIEVKELNKELKSAEKEIVKFHKAKQATFEPILMGITQASLNTNSFISAASFQETTRVLTDAATASKTDYLLGLKENVALGRLIPAGTGFPELENIRISSSDKTES;locus_tag=LOCUS_1980;gene=rpoC;EC_number=2.7.7.6;note=Q64NJ8 DNA-directed RNA polymerase subunit beta' (Bacteroides fragilis YCH46) [pid:53.5%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:0.0e+00],MGA_203
sequence04	MetaGeneAnnotator	CDS	30051	30422	.	+	0	ID=MGA_204;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72CI5;translation=MPTVNQLIRKSRNTIGKKSKSVALNSSPQKRGVCTRVYTTTPKKPNSALRKVARVRLTNGMEVTAYIPGEGHNLQEHSIVLIEGGRVKDLPGVRYHIVRGSLDTAGVKDRQTSRSRYGAKKPK;locus_tag=LOCUS_1990;gene=rpsL;note=Q72CI5 30S ribosomal protein S12 (Desulfovibrio vulgaris str. Hildenborough) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-53],MGA_204
sequence04	MetaGeneAnnotator	CDS	30426	30899	.	+	0	ID=MGA_205;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P38526;translation=MRRRRPEKRTINPDPKFNDLQVSKFMNYLLTDGKKGIAEKILYSAFDIISDKSKKDPVEVFKKALSNASPHVEVKSKRIGGATYQVPIEVPSRRQFYLASHWIIGSAQNKSGSSMSVRLASEILSASNNEGNAIKKKEDTHRMAEANKAFAHFGRGR;locus_tag=LOCUS_2000;gene=rpsG;note=P38526 30S ribosomal protein S7 (Thermotoga maritima MSB8) [pid:60.1%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:5.2e-48],MGA_205
sequence04	MetaGeneAnnotator	CDS	30899	32989	.	+	0	ID=MGA_206;product=elongation factor G 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q748Y8;translation=MSADLVNVRNIGIMAHVDAGKTTLTERMLFYSGKSHKIGEVHDGAATMDWMAQEQERGITITSAATTFYWNKKRVNLIDTPGHVDFTMEVERSLRVLDGAVAVFCAVAGVEPQSETVWRQATKYNVPRIAFINKMDRVGADFYNAIDTMKKRLNTKPLPIALPIGSGETFSGIIDLLTMKAIRYIDSSQGAEFESIEIPSDLQSDADKWRNFLLEEVASFDDALMEKYLGEEEITEDEIKSALKKGCLDNAFIPTLCGSAFKNKGVQRVLDAVCDFLPSPVDIESIEGSSVNDPDQKVKIKNSTDGDFSALAFKIATDPFVGKLTYIRVYSGILKKGSFCIDANTGEKQRVSRILQMHANKREELEEAKAGEIVAVIGLKDVMTGHTLSEKGDIILESMEFPDPVVSVSIEPVSKGDQDQLAKGMSKLSEEDPTFKVNVDTETGQTVISGMGEVHLEIIIDRLKREFNVNANVGKPQVSFREAIQKPVDNIDEKFVRQSGGRGQYGHVVINVKPAAQGEGYKFVNKIVGGVIPREYIPAVDAGIQEQLKNGVLYGYPIPDIEVELVFGSYHDVDSSEIAFKVAGSRAISRACKAANPVLMEPIMRVEATTPDDYLGDVIGDINSRRGKVESMEQQGSNQVVKAAVPLSEMFGYATDLRSISQGRANFYMDFLEYSKVPSSVEDKLMKSKLNNEESN;locus_tag=LOCUS_2010;gene=fusA2;note=Q748Y8 elongation factor G 2 (Geobacter sulfurreducens PCA) [pid:60.8%25%2C q_cov:98.0%25%2C s_cov:98.4%25%2C Eval:1.1e-244],MGA_206
sequence04	MetaGeneAnnotator	CDS	32989	33297	.	+	0	ID=MGA_207;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q88XY7;translation=MSQDLIRISLKAFDHKLLDKSAEKIIRTAKSTGAIISGPIPLPTKKTVYTVLRSPFIDKKSREQFQTKIHKRVVDIVNSTPKTVESLMKLDLPSGVDIEIRG;locus_tag=LOCUS_2020;gene=rpsJ;note=Q88XY7 30S ribosomal protein S10 (Lactobacillus plantarum WCFS1) [pid:69.3%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:2.1e-35],MGA_207
sequence04	MetaGeneAnnotator	CDS	33301	33921	.	+	0	ID=MGA_208;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3CV20;translation=MYGLIGKKIKMTQMFNNNGHLVPVTLVSAGPCTVSQIKTSDNDGYNAVQLAFGTKSLRRTNKPMQGHLNKANLKSASIIAEFKSLDDFDYQIGQQFDSSIFNIGEVINIKSISKGKGFAGVIKRHNFNRSDATHGNKHTERAPGSIGQSSDPSRVFKGMRMAGRKGSDYVTVKNLVIMDIDRDNNVLYIKGAIPGSNNSTIYILKK;locus_tag=LOCUS_2030;gene=rplC;note=A0A0H3CV20 50S ribosomal protein L3 (Amycolatopsis mediterranei U32) [pid:45.3%25%2C q_cov:98.5%25%2C s_cov:93.1%25%2C Eval:9.3e-51],MGA_208
sequence04	MetaGeneAnnotator	CDS	33921	34541	.	+	0	ID=MGA_209;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P61055;translation=MKLKSIDTNKDFTLNDTLFKVPMNEQAVYQTVNAELINNRQGTSSSKNRALVSGGGKKPFRQKGTGNARQGTSRSPLMRGGGVVFGPSPRYYYKKVNSKIKKLAFKCVLSDLVKEEKFKIVESISIGSNKTKDFVNFLKKFELENKKLTIVTSTISDNLFFSSRNVKSIRLVKANSCSIIDLMDCQTIIIDSEGLNSLNERFGDKN;locus_tag=LOCUS_2040;gene=rplD;note=P61055 50S ribosomal protein L4 (Listeria monocytogenes EGD-e) [pid:41.7%25%2C q_cov:96.1%25%2C s_cov:95.7%25%2C Eval:1.1e-38],MGA_209
sequence04	MetaGeneAnnotator	CDS	34541	34855	.	+	0	ID=MGA_210;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66433;translation=MNTHFSKILIRPIVTEKMTILQDAQRKYAFEVPVDVNKLDVKSAVEKKFNVKVSKVAISNKKGKMKQMTVKSGGRTIRTSGSTKMKRRAIVTLVEGYSIDLFSV;locus_tag=LOCUS_2050;gene=rplW;note=O66433 50S ribosomal protein L23 (Aquifex aeolicus VF5) [pid:46.3%25%2C q_cov:91.3%25%2C s_cov:87.4%25%2C Eval:3.5e-14],MGA_210
sequence04	MetaGeneAnnotator	CDS	34861	35688	.	+	0	ID=MGA_211;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72CH7;translation=MGIRQLKPVTPAARFASRPDFSEITTDKPEKSLICKLTKTGGRNNNGRITSRRRGGGHKRSYRLIDFKRDKFNIEGKVATIEYDPNRSSFIALIHYVDGEKRYIIQPDGLKVGDIILSGEQVALKNGNCMQLKHIPSGQFVHNVELYPGKGAQMARSAGAGVQVMAHDGGLVTLKMPSGEVRMVQENCLATVGVVGNKQHELVSSGKAGRSRWLGKRPKVRGVAMNPVDHPHGGGEGKTSGGRHPVSPTGVPTKGFKTRKKKKKSNSMIVKRRNK;locus_tag=LOCUS_2060;gene=rplB;note=Q72CH7 50S ribosomal protein L2 (Desulfovibrio vulgaris str. Hildenborough) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:8.5e-94],MGA_211
sequence04	MetaGeneAnnotator	CDS	35688	35960	.	+	0	ID=MGA_212;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NL2;translation=MSRSIIKGPHVDLKLMKKVEKMNESSNKTVIKTWARQSIIIPDFVGHTFAVHNGNKFIPVFITENMVGHKLGEFSPTRTFRMHSGDRKKK;locus_tag=LOCUS_2070;gene=rpsS;note=Q64NL2 30S ribosomal protein S19 (Bacteroides fragilis YCH46) [pid:71.9%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:9.1e-34],MGA_212
sequence04	MetaGeneAnnotator	CDS	35963	36295	.	+	0	ID=MGA_213;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WH71;translation=MEFVSQSKNLRLAPKKLRKVADVVRGLNVNKALISLQFMDEKGAYFIFKTLSSALANANASDNFDKDLNSLVVKAITVDEGPALKRFRPRAQGRATRIRKRTSHLKVIIG;locus_tag=LOCUS_2080;gene=rplV;note=A9WH71 50S ribosomal protein L22 (Chloroflexus aurantiacus J-10-fl) [pid:46.8%25%2C q_cov:99.1%25%2C s_cov:94.7%25%2C Eval:1.3e-21],MGA_213
sequence04	MetaGeneAnnotator	CDS	36299	36937	.	+	0	ID=MGA_214;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMD0;translation=MGQKTHPIGLRLEVTKNWSSNWFPKKNAYASDLAEDIKIRKYLKNRLKDASIASVIIERTSQAITININTARPGIVIGKGGEEVSKIKKELTALCNNQNIQLNINEVKRPELNAELVGQNIAAQLVKKMAYRRVLNKAMQSTMRMGAEGIRINISGRLGGVEIARSERFMQGRVPLHTIRADIDYALVEAHTAYGIIGIKVWICNGFTRTEK;locus_tag=LOCUS_2090;gene=rpsC;note=E8TMD0 30S ribosomal protein S3 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:53.9%25%2C q_cov:97.2%25%2C s_cov:85.1%25%2C Eval:2.7e-61],MGA_214
sequence04	MetaGeneAnnotator	CDS	36934	37359	.	+	0	ID=MGA_215;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:D1B5W8;translation=MMLEPRKIKYRRVHRGHRRGMAKGGTEVSFGSYGLKALEPGWITARQIEATRISISRRVRKIGKMWIRVFPDKPITKKPLETRMGKGKGSPEYWVANVKPGRILFEVEGISREVAQEAFRIAGNKLAIKTKLVARRGLDEN;locus_tag=LOCUS_2100;gene=rplP;note=D1B5W8 50S ribosomal protein L16 (Thermanaerovibrio acidaminovorans DSM 6589) [pid:61.9%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:2.3e-48],MGA_215
sequence04	MetaGeneAnnotator	CDS	37349	37555	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISDLRKMSSKDLRAKLLENSESLQKYRFQKSIQQLEDYKVIKEVKKENAKILTILSQLDDMEESNG;locus_tag=LOCUS_2110;note=MGA_216
sequence04	MetaGeneAnnotator	CDS	37548	37796	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRNTKIIGKVISSSMDKTIVVSVEKTIQHKLYKKYIKRSKKYYAHDENNSFKVGDTVQLISSRPLSKTKRWRASKLLTGEK;locus_tag=LOCUS_2120;note=P38519 30S ribosomal protein S17 (Thermotoga maritima MSB8) [pid:54.8%25%2C q_cov:89.0%25%2C s_cov:68.2%25%2C Eval:1.7e-19%2C partial hit],MGA_217
sequence04	MetaGeneAnnotator	CDS	37798	38166	.	+	0	ID=MGA_218;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RFQ7;translation=MIQQETRLKVADNSGAKVVMCFKVLGGSKKRYASIGDIIVVAVKSATPGGMVKKGEVARAVVVRVTKEYRRRDGSYIRFDENAAVILNSNNEPKGTRIFGPVARELREGGYMKIISMAPEVL;locus_tag=LOCUS_2130;gene=rplN;note=Q2RFQ7 50S ribosomal protein L14 (Moorella thermoacetica ATCC 39073) [pid:71.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-46],MGA_218
sequence04	MetaGeneAnnotator	CDS	38166	38468	.	+	0	ID=MGA_219;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WSA1;translation=MKIRKDMIVKVISGNFKGMSGKVLKVFPVSQRAVVEGVALTKRTLRPSQENPKGGFTERERSLHVSNLMVLDGNNAARVGFKILNDKSKVRISKKTGKEI;locus_tag=LOCUS_2140;gene=rplX;note=Q1WSA1 50S ribosomal protein L24 (Lactobacillus salivarius UCC118) [pid:48.0%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:3.7e-19],MGA_219
sequence04	MetaGeneAnnotator	CDS	38473	39060	.	+	0	ID=MGA_220;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EJ0;translation=MYNPNYKKKYFEEVRPHLIKKFGFSSVMQAPKIEKITLNMGIGDAKNNQKSLQSALEELLLITGQKPIITKAKKDVSNFKIRKGFPVGCKVTLRKNLMYEFLERLCAIALPRTRDFRGLSNKSFDGFGNYSFGIKEQIVFPEIDYDKVDSLRGMDVVITTSSKNNEECYELLRSMGLPVREIVKKEDDSNEDING;locus_tag=LOCUS_2150;gene=rplE;note=Q97EJ0 50S ribosomal protein L5 (Clostridium acetobutylicum ATCC 824) [pid:59.4%25%2C q_cov:89.7%25%2C s_cov:97.2%25%2C Eval:3.1e-61],MGA_220
sequence04	MetaGeneAnnotator	CDS	39053	39358	.	+	0	ID=MGA_221;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B1MFN1;translation=MAKKSKMVREFHLQKKVDRYFLIRKELREIIKNPKASDDEKFAAQAKLQKLPRSTSAIRLTNRCVVSGRPKGYMRRFGISRITFRELALKGDLPGVTKASW;locus_tag=LOCUS_2160;gene=rpsN;note=B1MFN1 30S ribosomal protein S14 (Mycobacterium abscessus) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-23],MGA_221
sequence05	MetaGeneAnnotator	CDS	1770	2990	.	-	0	ID=MGA_223;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q183H5;translation=MKSKYQKVKGTFDITPENMSGWTEAKNRLYDLAEIFGYKEIITPSIEYRELFEHSAGESVDVTKEMFSWKDLNDKEICLKPEMTAPVVRAFIESGLYRSEPLSKFFYFDSLFRREKPQKGRQRQFHQFGVEVFGSYSSEQDAEVILFAIEAMKKLQIKEYNLKINNIGTADTRNVFAKHLKQFLKDKHSQLSPSALEKMESNPIRILDSKFIEDVEALKGGPTISDFLSIEDKNNFINLQSHLNSLGIKFSIKTSLVRGLDYYNGNVFEVVQNDNRSQNAICGGGRYDSLVEQFGGPKTGAVGFAAGFERMLLASKVSYEQLNKGKVYVGLHQGNNDLSFIKELVTLEHPFLIDTSDKSIRNKFKKSQKLGFSMFLDLESITITDHGTQKEIKLQNTTHLKDLLNK;locus_tag=LOCUS_2170;gene=hisS;EC_number=6.1.1.21;note=Q183H5 histidine--tRNA ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:37.5%25%2C q_cov:96.8%25%2C s_cov:95.7%25%2C Eval:3.2e-72],MGA_223
sequence05	MetaGeneAnnotator	CDS	3028	6210	.	-	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKTLSFLVLLSALFTQNLKLISADQLTNSTQNGEKVVRLEGNVIFEQDSLVLKAQKAIRFIEQDILELNGNVELEDKSKRMAADIIVFDSKNNIIELKNNTSIQFNGYSLVSDQAVFNRETNIIDLEKQPKIFEASNEIQGTQIIVAIEGDLIKNVEVLGKGVIINRDLESKFSNQNILRAEKINVSFLDGFLKFISLENMASSEFYINNGSETEGKNLITGDLITVDFLNQEIISMKASGGIMGNYKRFSSNTSPNEEIDYFAEKADFNFENNKTKLYGESSINYGDVNISAASIEMDLKSEILSAFSFNPFNKEEKITPKFTEKNNSPVYGNEITYNLQSGNGKIVQGETRVQDTLYTGRVITTVNDSTFLMNDCIFTNCNSKSFYIGSKNVKILYNDKVIARPLNIYIGGIPILGIPVAIFPHSSSERRGGWIMPSIGSSNFRGTYLDGLGYYFAPNDYFGSENLITFADKQGVIFESKNIYSKKYSYNGNINFRTRKFLANEEQNITNLNQNNITDYSILWNHNQILRKNQSLSANVNFSSSGSLNRETSLDLSERLDQKTRSIVRYSKNWSKENISLSLSLDNSQDLLAEEKVIMGSDFFINPQNKNSTIIKNSGSLPNVYLRVGRRNVSLPFIENSFLSDLQWDYSSQLKTVSKNFYKAEEFISENNQSQLRWSTKNNGEIKVYHDSNSMMKNNFSLNAPFTLFRYISVNPNANLNLDFVNQYQGILKTDEAESVGLQSGIKERLTGNFSINLYTKIYGVLPLKLGKIKSIRHVISPRISYTYSPGYLNNNNYFINVDDETIDIFQGSLIGSTPRNSSRRASIGFGNIFQAKSLAKNGHSEKIDLFSLQINTSYNFESPEFQWSLINSSLRSKYKRVNFDLSTTHDLYQFDSNTSNRSNKIGSPRLTSLKFSSSLNLSGKIKNSFLLNENKFLFIDEINDTGWSSNIGLSLILNKMNPNNESKTFWINANNSFQVGKNWKIKHSIRYDFVNEKTVRQNLSMYREIDCWEFYADWVPTGYAKGFYLRLNLRSDMLKDLKIEKRSGIYNNRPNF;locus_tag=LOCUS_2180;note=MGA_224
sequence05	MetaGeneAnnotator	CDS	6285	6596	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDSFFDSILSNPSYLAVSIVVITLLAFSVVKKLFKLVSLGLTLYLIYCLYLVFTGQPVPTFESLYSDFKLQEEKLSDTIEENIINPMKEKKETIENNINLLK;locus_tag=LOCUS_2190;note=MGA_225
sequence05	MetaGeneAnnotator	CDS	6601	7452	.	+	0	ID=MGA_226;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963270.1;translation=MFERNLLKNKNIIVTGGGSGLGKSMARRFGELGANVVIFGRRKDILKETENEFKNLGIKVLSVDGDVRKPEDVQHLLDCSKKEFGVINGLLNNAAGNFISPTEMLSQNGFKSIVDIVLMGTWNCTSIIGKEMIDNKSGTILNIVTTYAWTGSPFVVPSACAKAGVLAMTRSLAVEWGKFNIRFNAIAPGPFPTKGAWSRLMPPGFEEFENSMKEKIPMKRFGERHELENLASYLMSDGSGYINGEVVTIDGGEWLAGAGEFSDLSKIPYSLWEEMSKIRKEKK;locus_tag=LOCUS_2200;gene=ykuF;EC_number=1.-.-.-;note=WP_011963270.1 short-chain dehydrogenase (Flavobacterium psychrophilum JIP02/86) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:8.4e-84],MGA_226
sequence05	MetaGeneAnnotator	CDS	7452	8201	.	+	0	ID=MGA_227;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920912.1;translation=MFLQNKTAIISGGSKGIGLEIAKAYARNGANVVICSRKKENLDVALESASKEGVSLNIITCDTAESNSIKEVVDFTLRKFSSIDILVNNAAASPYFGPIMKSTGKDWDKVFKVNVHSYFEFAQQCFPTMKQKKYGKIINIGSVAGKTPMEGLGIYSISKSAVMMLTKVLAKELAPDNIHVNAILPGVIRTNFSKALWDNEEISNELLKIIPQGRIGEPKDIVGIALYLASERSNFITGSLFSIDGGLTT;locus_tag=LOCUS_2210;EC_number=1.1.1.100;note=WP_010920912.1 short-chain dehydrogenase (Caulobacter crescentus NA1000) [pid:41.5%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:1.4e-44],MGA_227
sequence05	MetaGeneAnnotator	CDS	8198	8845	.	-	0	ID=MGA_228;product=putative phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_001705604.1;translation=MKYNHIIWDWNGTLLNDLRLCVTILNLSLEKRSIPAITIEDYKKKFLFPIKSFYENIGFDFEKESFEDSNVEFHKNFEKNFKTLALQPYAKETISSIKSLKITQSILSATMQNKLVEQVSFFSLEPFIDNIVGLQNTPSGFGKEYEGRELLSYVEVPLEETIIIGDSMLDFNVSKALGIDCALVLNGHNDYERLKNTGSPVFKNIRDLFSWLKQT;locus_tag=LOCUS_2220;note=YP_001705604.1 putative phosphatase (Mycobacterium abscessus) [pid:28.9%25%2C q_cov:96.7%25%2C s_cov:88.6%25%2C Eval:2.0e-19],MGA_228
sequence05	MetaGeneAnnotator	CDS	8844	9482	.	+	0	ID=MGA_229;product=coenzyme A pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964039.1;translation=MVMKLDKKINYLKERLDVESLPGWEAQKKMAAIPIDTYTENFFLNPKDYKKAGVAIILFNFEQTIKFYLTKRSDSLEHHKGQISFPGGSVDGKESILMTAAREAEEEIGVKRHQIEYIGSLSPLYIPVSGFKIFPSVWFAGVRPKVKLNPKEVSDIFEIEVDEVLNEEIFSHKKISFNSKVFNAPAFQFKDCLVWGATAMILSELKEILREI;locus_tag=LOCUS_2230;note=WP_011964039.1 coenzyme A pyrophosphatase (Flavobacterium psychrophilum JIP02/86) [pid:36.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:8.3e-26],MGA_229
sequence05	MetaGeneAnnotator	CDS	9468	10382	.	-	0	ID=MGA_230;product=iron permease FTR1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083270.1;translation=MAELLITFRETLEAALIIGILFTFIAKTGKDYLKTSVFGGLTSAIVASIVFAIFFQLVLGGFTGKTEAIFEGVVMIVAAVLLSSMIVWMARNKNVSESLENQASAVIENKKNAARGMFLLAFVSVFREGIETVLFLYGIFIKDSNLSIISSLVGILIAIIIGYSIFIQGKRVPLKTFFNITSVLLIFVAAGLVSYGIHEFEEAGLVPYYGPIWDINYLLNEKSTIGVFAKGLFGYNGNPSAIEAIAYLLTFASVSYLWSQASAIPQKIQKNNPINNDSCPSCFEDVSKKGQVKCSNCNYELDLS;locus_tag=LOCUS_2240;note=WP_004083270.1 iron permease FTR1 (Thermotoga maritima MSB8) [pid:33.6%25%2C q_cov:85.5%25%2C s_cov:90.5%25%2C Eval:3.5e-30],MGA_230
sequence05	MetaGeneAnnotator	CDS	10444	10881	.	-	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWISIVVILFFVACGGASSEPQIINIGSLGSEMKYDLNEFTVKAGAPVKIILKNNTPLEYQGDMKHNIVIFNDDSAAMQIIKLAEGNGGNPYPDGRILAFSSLIDKQEETVLEFIAPKKPGKYLYVCTFIAHAMSMRGYMIVE;locus_tag=LOCUS_2250;note=WP_011118945.1 azurin (Rhodopirellula baltica SH 1) [pid:34.8%25%2C q_cov:83.4%25%2C s_cov:7.6%25%2C Eval:1.3e-12%2C partial hit],MGA_231
sequence05	MetaGeneAnnotator	CDS	10878	11624	.	-	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942960.1;translation=MTSLWILSLLAKDASIVDIFWGPAFIVLASSLFSLMEVENNERGQWLLAFITIWGLRLAFHIGIRNIGHGEDFRYVEWRKEGGKQYWIISLFRVFILQGSLATLIGVSIYFGYLNTAYFSSLEKIGLCSFFIFGILWESISDIQLIQFRKNPENKGKIIQSGLWKFSRHPNYFGDLMVWVSIFLFSVSSKNFLFIAISAISPLLMGLIFYKITGPIMDSALALSKPGYKEYMQNSNSIIPRIFRRKTI;locus_tag=LOCUS_2260;note=WP_010942960.1 hypothetical protein (Geobacter sulfurreducens PCA) [pid:35.1%25%2C q_cov:96.8%25%2C s_cov:92.2%25%2C Eval:1.4e-36],MGA_232
sequence05	MetaGeneAnnotator	CDS	11760	12059	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKDIIDHLAICTDNISQSVNWYLKEFNCAVLYQDDSWAMLEFENVKLALVLPEQHPFHFAILKSNVEDYGTPVKHRDGSVSVYVKDKSGNNIEILRY;locus_tag=LOCUS_2270;note=MGA_233
sequence05	MetaGeneAnnotator	CDS	12109	12729	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKIPIFPLPLVVLPGEKIPLHIFEEKYKKMIEYCLKNDKKFGIVNTKNNDSLIFGCTVSIEKVYSEDQSTGEYDIIVAGEERFIVKSYNHSKSFKEAYVTIWEDSDIFHDSNSLQKTNALFYEVLLKLGETTQISQFEAPKSSYEICSMLDINLNAKKILLKSQSENDRLILLRRLLKKAIIKLDQSKGGYLQSVEHIAAQYEA;locus_tag=LOCUS_2280;note=WP_011125812.1 ATP-dependent protease (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:32.1%25%2C q_cov:63.6%25%2C s_cov:58.2%25%2C Eval:3.9e-09%2C partial hit],MGA_234
sequence05	MetaGeneAnnotator	CDS	12726	15929	.	-	0	ID=MGA_235;product=multidrug transporter AcrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403251.1;translation=MKGIVTWFVKNSVPANLFMIFLIVGGFFISYPNIKSEFFPRPDPNVVLITVPYPGASAAEVEASICSKIEDRLEGVAGIKKLSSSSLEGLGVVTIRVFANEDLDSTLDDIKDIIDSITTFPKNSETPLVKKLDTNEKVLDVVIYGNADENVLLETTKNINEDIKNLSEISFTEIFGQRNKEISIEVSEKNLEKYNLNFDQIAQAINLGSIDLPGGILPSQKGDLLIRTVGQSYSGSEYENIVIKTNLNGNQLLLKDVATIKDSFEESEKFFRWDGSPAMFISANLVGEQDVLIAANQLREFVNNQKNLMPEGIKIEYWYDQARYLEDRISILYKNFAVGMVLVLILLTLFLRPSVAFWVAMGIPISFGGALILLPFMGVTINVLSTFMFIVVLGIVVDDAIIVGENVFRRRIKLKEDNYDSTIKGTTEVLTPVFFGVLTTIVVFAPMLDLAGDTGPIWRTFPLTAIPILIFSLIESTTILPSHLYHAGEWFQKRFIKFGKVLKSSRNYCSEKLYDFVDGFWLPMVKKALQFRYETIAIFISLLILSFSLVGGGWVKWQFFPVLEAEEVAITVELAEGSPIEKTESIVAIIEEKALNLKKELFEKNSQPIITHVLTTVGAQYFSEQEAANSPQGGTVQSSSTPHLGEVVVILSPADERWGLTGANEVINILRERVGTIPDVERLNFSANIFNAGKPIDYEFSGKSFEDLDMVVSETKKLLSSYNGAIDINDSDKRGKNELQINLLPNAESYGITNIEIARQIRQSFYGEEVQRIQRGDDDIKVMLKLPREERESLSTLNNLRIRTSQGFKVPLYSVANIVETEGKSAITRIDGNRVIQVTADVDITKNTSTMILSSMLNAENKPKGELKRILEQKNGRVDFALAGEAAEQAEQLNDIFIKFGLAIFTIFVLLAIPLKSYFKPLIVLSAIPFGIVGAILGHLLLFQPMSVLSLLGVVALSGVVVNDSLLLVVFISRAKEEGARTRDAVLDAVRTRFRPVILTSLTTFLGIAPLLFNRSTQVLFLKPMAISLGIGILFATFVILLLVPVSYAIVDDFIKIFSGNIKPKKN;locus_tag=LOCUS_2290;note=WP_011403251.1 multidrug transporter AcrB (Salinibacter ruber DSM 13855) [pid:35.5%25%2C q_cov:98.7%25%2C s_cov:96.9%25%2C Eval:2.3e-185],MGA_235
sequence05	MetaGeneAnnotator	CDS	15931	17079	.	-	0	ID=MGA_236;product=RND superfamily efflux pump MFP component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071226.1;translation=MKLKDRLKPLFIIIGSLIIGYILVALGKVQPEPAADAPPPDVKVVIALPQSWNTKILSSGTTRATINTVLTSEVMGEIVYKSNQFSAGSSVLKGQILAKIDDTDLKLSLKNAELQLATADIQYKLALAEAEIAQEAWEKINQKTEPSELALKIPQLKQAKAGYDAAKALVDSANKKLSKTDITAPYTGRIQGANIDLGSSVVPGQPLGTIYKSNLIEVELSVQDSDLRFLNIPMDGRKLEDYQKSEIIISAPYKGVNQQWVGFLERVDGVIDPTTRMVKLIGYFENDLLEENSPSIPLGLFVQAEISGVTLENIYVIPSEAINAKNEVIIVGNDNRIEIREVSVLKKNNENVIINNGISPGERIMVSKISISSSTMMVNPKY;locus_tag=LOCUS_2300;note=WP_011071226.1 RND superfamily efflux pump MFP component (Shewanella oneidensis MR-1) [pid:31.2%25%2C q_cov:97.6%25%2C s_cov:92.0%25%2C Eval:6.5e-43],MGA_236
sequence05	MetaGeneAnnotator	CDS	17063	18508	.	-	0	ID=MGA_237;product=RND efflux system%2C hypothetical protein CmeC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858696.1;translation=MKKNFSILLLVILAGCANSKYLNGEEVLKPIDISIPEQWETISEIEIPNKEIWWVEFNDKNLMSFIENFQKNNLDLKSSLISVQNAHLASKITSASLLPSFALQSSGNQSEQNTAGFPPFFQDLFGSQNNGQLTSFEQENYNLSLTAQWEIDLWGKVFNQSLASKMDYLSAKYSQNYYELSLTAEAIKLFYGTVELQKSLDWAEEKLKNLTTLYELSYQRYQQGSISEKQLKQIEILLSQTNTEYENIRAGYNSLIRSTKILQSMFPLIENERIKKDFPGSLPPIPSYVPSEIIQRRPDLLSARFALLSSLQKKKVATKQLLPSFNLIGSNGTASNDLKDLLDEDFKVWSGSISFFTPIFNSGKLINNRKLAKNNAEIAMYNYMSKVLGAYAEVETALEMDRIAQIALNESIKILEATEKIYSITLKEYGQGIVGFEEIITQENRLSDVKIYLAQSEKMRIEKRINLILALGGGFRFETKR;locus_tag=LOCUS_2310;gene=cmeC;note=WP_002858696.1 RND efflux system%2C hypothetical protein CmeC (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:25.2%25%2C q_cov:96.7%25%2C s_cov:92.5%25%2C Eval:4.5e-39],MGA_237
sequence05	MetaGeneAnnotator	CDS	18511	19050	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSSIFNQLKIAFNYFGFTIVWFCCAFSAKNENFLLAIIPTTIYIIIHLQIVSKKKVVELKLISLSLFLGIIVDSLLSGLGIVKYAGSWENFPNLSPIWILCMWIGFASQIFHSLKFLRGRFLLIGFYGILAPLAYIGGEKIQAVQVSAGMANMVIISALWVISLVILFKFAECLNKR;locus_tag=LOCUS_2320;note=MGA_238
sequence05	MetaGeneAnnotator	CDS	19040	19567	.	-	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963157.1;translation=MNIIFYIIISILLFFLLSFFQEKKVFKFNAEQEINSDLDSVFQFFSQPENLSKITPPKMGFHILTPTPIAMKEGAIIDYTVKIFGIPQRWRTMITSYESHKMFIDEQMKGPYSLWHHKHIFLETSNGVKIIDEVTYVLPLQFLQSLVNKIIIAPQIEEIFSYRKKMIINKFNSET;locus_tag=LOCUS_2330;note=WP_011963157.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:41.6%25%2C q_cov:84.6%25%2C s_cov:95.5%25%2C Eval:2.3e-27],MGA_239
sequence05	Aragorn:1.2.38	tRNA	19587	19660	.	-	.	ID=Aragorn_13;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence05	MetaGeneAnnotator	CDS	19798	20382	.	+	0	ID=MGA_240;product=non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHP2;translation=MKKIIIASSNSHKIEEISLQIFPYFETILSLKDFPEIKEIVEDGNTLKENSYLKSSALYEHSGIASLGDDTGLEVDFLGGDPGVFSARYAGEKASDNDNLRKLLQKMGQTKKRSAIFKTVISFVDGKNDFFVEGVLKGEILKSPRGKNGFGYDSIFYLPTIGKTLAEMSIKEKTLISHRALAMENFLKEIKKIF;locus_tag=LOCUS_2340;EC_number=3.6.1.9;note=B5YHP2 non-canonical purine NTP pyrophosphatase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.3%25%2C q_cov:93.8%25%2C s_cov:90.7%25%2C Eval:8.0e-38],MGA_240
sequence05	MetaGeneAnnotator	CDS	20384	26536	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKVYLSIFFLASIVFSKDTFSQSFYIFENHSGPNFCLNDFSNYPIGLFNLKNKKDETIFHIDFNEKIISIKKTGFAESQYTTYFSTNDYLASLIKSNRDKALFQSFALSSSDTTYVKSKDSFVEIAGLDLGGLGRASLRVQGNINISGKLVNQDQELVRSSYREQQTKNFKFDQKQQLNVQGKVGERITISLDQNSERDFDWENTIRVDYQGDEDDILQRLEAGNISLSLPGTEFVTFSGQNRGLFGIKALTRLGPVDITSIASLEKTQKETQKYKGSSELKATQIPDYDYRKNLYFFVHEWFRSGAEFQSESGFGVSIPSYYPLVSGLHPIGNVVIRNLELYKIDTSNNPQADPGTAYIDPLDLSAYTNDNKEGSFIKLERGIDYSVNEDLGFVRMQSSLQNEILAAHFEIVDRESGQLIVEIGSGINESSSSLVLKMIKAQSSHPNHPTWDLMFKNVYSLGSLNIDPTNLKVTIVDNLITPVSDRTETGKTYLHLFGLDNLNSAGEIAPDENIDYNNPNIINLQTGEIHLPSLLPFVSDDKLSGGNSNEELKGILRDGEMYISTNRSDFTGDSRFTLNVEYTSPKSVINLGFTLVEGSEELYYNGEKLQKGRDYQVDYFSGMIMILKNIDPEGELDISYDKHELVTFDRKLMIGSRAQIDFNDDSFLGMTALYYNQDIVNKKVEVGYEPINNFIWDLNGRYQQDFEKFSKSINDLPFVNSDKLSGFTLEGEFAQVLPNPNSISSPGTGDNNGVAYIDDFEGSKRVTNPSILRRFWHISSAPINAETMYEFKQENRMRMFWYNPYAQVLTNSIWPNVSTSQRAQNLTTDVLVLNVEPKLSQQEAQSDSLWAGIISPMFVGDYDQTKTKFFEIWLRGEMGNLTIDLGKISEDYDGNSKLNDEDVPEAGLALGNGFLEENEDTGLDGCFDEYENGWGQCLDTDGPTYLEYFASGETILINAFSDTDASDPNGDNWDYIEGSNDYSMVNGTEGNGTGVRIQAGGKYPDSEDLDNSGFLDRTNSFYSKTISLSDSTYVAGRTEFNGQKTGWKLIRIPISHFEHINDVSLSEIKYLRLAISGITEASKLEVAKVELVGNSWEEVGTSLVDYNNYTLQDSTFVVTVINDEDNPDYIPPKGVFGEYDEINQILSKEQSLVLKFDNLQPNYKGAAKKIITLDPKRGQSYLMYDLMKMFIYGNSEFSSIDESDLDFFIEFGAGDEYYKVTKKIYKGWDQDLGRNDLNVDLDWITRLKNAEQESIQLINPNDTFTDSLNYKRYELFDLNNELLQKIEVYGQPALSRIQYFVVGVENNSNNPISGEIWLDELRLSGVKKDKGNAMRIRSQINLSDFSESNFSYTKKDADFRVLQERLGSNNSNESLIVSNNFQLGGFFPKEWGISMPLSTSYSMQNNKPKYFPGSDVRTNQSSVPDSIMKKTSTIKVSSAISKKVKSQNPIMRYTIDNMSSTINLSSQKRSDEIMEHVNIHKINGDIKYNLQFPSDNYLKIFGWTKSIPIIGEQISETKFFYTPTNFNSSMIFSRNLSNKKTRSADDNLEDFNLGLTRTFGLSYKIFDNTQLNYTRNVNSDLSEYRNEVLQKISVGSVVQNTEAFSSSFSPDWFEWISPTFNYNANYSWNKPLSSVVDGANLVLTKSNSINFNLSPTTIMEQFYEPPSKSKSSSRSRTRIREIESEESDSDKMEPEKAKKYWIKDRLVVEKIYEATKKIQPIIVTFNTNTNLSDNGVQSSIPVFYKLGLNDNRDFAYAPEVGFNTGVDDIKKSLSIRSGIKINNSTSLSFSFNENISSVLNGSGVDTRSITRDYFSFGTRLNKGFPFSNWSLRIGGIEKIKILNHYFSSVSLEHSFAGKQVASWKFSDSNTNSFKLFSISSIIDNYNENLLISKKVSSFSPLMGLTASLKNGVSFNLRNNISYTLDEVPTGLSYVSDNSILGSITYNFSKGIRFALPFTDRNVFLNNNFNLTLNLESSNKNEEGSKDRINFAQQNFNKTNKAVLRASYAITENVSGSLFYEYRQNETRLTGRRVDRDFGINLNVVIRE;locus_tag=LOCUS_2350;note=WP_011405265.1 cell surface protein SprA (Salinibacter ruber DSM 13855) [pid:23.3%25%2C q_cov:59.8%25%2C s_cov:54.9%25%2C Eval:6.9e-72%2C partial hit],MGA_241
sequence05	MetaGeneAnnotator	CDS	26536	27459	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLYLITILILLGCSSKSINELNISHSFDGNRAYSYIIEQCDLGPRSPGLEGHQKFEKYLLGFFEKLNMEVHTQNFKYFNLLLDQEMNGKNFYVSLNPEISRRILLGAHWDTRSFADEEIDEAKRKQPVLGANDGASGVAVLMEIANILSNSSTVGVDLVFFDAEDVGIKGESETFAEGSKYFSKNMPLKIKPEKAIIVDMVGDKRLNLPIERYSFQKNKKFVLDLWELAERLGLKAFSKMIKYEIYDDHIPLNDLAQIPAVDIIDFDYPNEFYNYWHTTEDTPDKCSPQSLAQVGVLLLNYIHEN;locus_tag=LOCUS_2360;note=WP_011123991.1 peptidase M28 (Rhodopirellula baltica SH 1) [pid:35.7%25%2C q_cov:88.6%25%2C s_cov:71.5%25%2C Eval:2.8e-43%2C partial hit],MGA_242
sequence05	MetaGeneAnnotator	CDS	27449	28501	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRKLFSIFFFTFIVFSCSSGGGGSPTDPSDPGDGNGEGNEVTFSNATNFDAPNQLEIISWNIQTFPQSSKTNDYLKVLLTKWNADVYFFQEIQNKNQLIALANELSEYSLVLSSTTQNMHFGLLYKSTNSDCATCGVITFNGKNELWSNTPNSNDGDMDFANNANYQFASRPPMENFLTWSNGSKTFDFYLIGTHYKCCGNDQYENEKDNPGAEIFRRYAASSLLKDYYANNRQQANVFIAGDFNNVGNQSITNPAIAPLADPSINDGYFKLIDEAVFQQQPTKYSWQGWRNRYDPAHLDHIFISESMFSYENAAGGVVDMLTETGLTGNEIDDVLSDHQPIFIRLIP;locus_tag=LOCUS_2370;note=MGA_243
sequence05	MetaGeneAnnotator	CDS	28506	29441	.	-	0	ID=MGA_244;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UNC6;translation=MRRPKISLIGGGQVGGNIALLAAQKELGDLTIIDIPESENFIKGKALDISQLLPLEGYDVKINASSNFSDIQDSDAIVITAGFPRQPGMNREDLLKKNLDIISNVAKQVKKYAPNAFVIVVSNPLDAMVYAFYKVSGFAKNKVVGMAGALDSTRFRAFIAEATGLSSQDINCMVLGGHGDTMVPVSRLATIGGVPLTSILDQKTIQSIEERTRFGGGEIVKLFGKGSAFYAPAQSSVEMLESFIKDKKRVIPCASLCHGEFGIDGYFIGVPTVIGSGGVEKVIDFELTDSEKKALEDTIKAVKNTVKETGL;locus_tag=LOCUS_2380;gene=mdh;EC_number=1.1.1.37;note=Q7UNC6 malate dehydrogenase (Rhodopirellula baltica SH 1) [pid:50.0%25%2C q_cov:98.4%25%2C s_cov:97.1%25%2C Eval:8.2e-91],MGA_244
sequence05	MetaGeneAnnotator	CDS	29444	29698	.	-	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHKKGQGSSRNGRDSNSKRLGVKVSDGQSILAGSIIVKQRGTKYHAGLNVGRGNDDSLFAKSHGYVKFSKKGTTTFVNVVEKN;locus_tag=LOCUS_2390;note=Q97JL5 50S ribosomal protein L27 (Clostridium acetobutylicum ATCC 824) [pid:73.6%25%2C q_cov:85.7%25%2C s_cov:72.0%25%2C Eval:2.0e-25%2C partial hit],MGA_245
sequence05	MetaGeneAnnotator	CDS	29702	30094	.	-	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAILQINGKQYKVSKGDKVLIDSKIDIENGKVIDLDQVLAISDNDKNIFNPKELESFVVKAKVIDHSRDSKVTIIKKKRRKGYQRKNGHRQDLTMIEIQSIGSSVKKSTAEKKTKTTSSAKATTKKKEN;locus_tag=LOCUS_2400;note=A6H1P9 50S ribosomal protein L21 (Flavobacterium psychrophilum JIP02/86) [pid:45.7%25%2C q_cov:80.8%25%2C s_cov:49.3%25%2C Eval:4.0e-18%2C partial hit],MGA_246
sequence05	MetaGeneAnnotator	CDS	30128	31624	.	-	0	ID=MGA_247;product=ribonuclease G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943853.1;translation=MNKEIYISKGVGETRIAVTENGNLAELHVDKETQERTVGNIYKGIVENVIPGMQAAFVNIGQKVNAFLPFSEISDPEHLDTDNTKKDSQIEVLLSPGQEIIVQVIKEPFDNKGARVTTNLSLAGRFLVLIPKSKYVGVSKKLLDKYERRRLKKIALEIRKPGLGMIIRTVAEGTTEEQIVNDYTSLVKKYNELIALSDKKSAPMLAYNDLETTSSVLRDLIDDNVSKIVTDSREDYKKVLKIIKDDSLNIENSLEHYRKREPLFRSIGIHNSIMKLLKKKVWLKSGAYLIIERTEAMVVVDVNSGKFVGKKGHEENSLKINLEAAKEIASQLRLRHLSGLILIDFIDMNESENRKKVYQQMKKELRFDRAKVAVSEISEFGVLEMTRERTGLSMIDSITEACDCCNGWGRIISKDTLLTRIDYWLREYKQQKKDLRLKLYLHPEIAAYLKNEKTRDFIKLMWQNFVYLKIIEDYSLNKNEFKFTKINDDVDLTNEIGT;locus_tag=LOCUS_2410;gene=cafA;note=WP_010943853.1 ribonuclease G (Geobacter sulfurreducens PCA) [pid:42.6%25%2C q_cov:92.4%25%2C s_cov:94.8%25%2C Eval:5.1e-102],MGA_247
sequence05	MetaGeneAnnotator	CDS	31780	32562	.	+	0	ID=MGA_248;product=3'(2')%2C5'-bisphosphate nucleotidase CysQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888338.1;translation=MIYLSELIAAKVAARNAGKILLKYYQDDKKNIQEKSKDNPVTDADFEADQYIKNFLMGEFPFDGWLSEETVDDLIRLEKKRVWVVDPLDGTKEFIEQIPHFCVSIALVDNHIPVVGVIFNPVTDELFYASKNSGAFKNQSRIFCSKEVDLKKSNIAVSRSEFQKGEWSTYQNNFSEISPIGSIAYKIAKVSDQSVDCFATIAPKNEWDICAADCIIHEAGGIMKTIDSRTILYNQKKTLVTDPIIASNSNMFNAISDLLY;locus_tag=LOCUS_2420;note=WP_010888338.1 3'(2')%2C5'-bisphosphate nucleotidase CysQ (Deinococcus radiodurans R1) [pid:37.5%25%2C q_cov:99.6%25%2C s_cov:75.5%25%2C Eval:3.2e-39],MGA_248
sequence06	MetaGeneAnnotator	CDS	2	1300	.	+	0	ID=MGA_250;product=tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F743;translation=MIETYGCQMNVADSELVEGILNKIGMQKTTVIDDADAIFLNTCAIRENAESKIHSRLGNLYKLKLNKPELIIGVLGCMAQNLKDDLLKNKPYVDIILGPDSYRNIPMLMNRHNLDKKSIVDTKLSRFEVYENMFPKRGATFNAWVSIMRGCDKFCTFCIVPFTRGRERSRSIDSIAQEIQKAVSDGFAEITLLGQNVNSYNFEEKDFADLLLEVSNIDGVKRIRYTSPHPQDINDKLLEVMASRENICNYIHFPLQSGSNKILEKMNRTYSKEHFIYMVEKIREIIPDCGLSTDIIVGFPGETNDDFNDTLQVMKEVKFNSAFTFKYSPRPYTKAAQFSDQIDENIKKERLDELIKLQKKHTLEHNLAKVGTFQKILIEKESKKSIHHWAGRTDSNEWVIVDKNNNNIKDIIPVEITNATGVILHGKQIESV;locus_tag=LOCUS_2430;gene=miaB;EC_number=2.8.4.3;note=Q8F743 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase (Leptospira interrogans serovar Lai str. 56601) [pid:45.8%25%2C q_cov:98.6%25%2C s_cov:96.2%25%2C Eval:3.1e-105],MGA_250
sequence06	MetaGeneAnnotator	CDS	1301	1615	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRILKILFFLAAITAVFLIFDRNSFELSLFFLNETPLILPAYQLYIILIMIGIIIGYLVSLKSVFSYRSEIKKLIKNNKDLSDELDSLRNVAINDDISFDQED;locus_tag=LOCUS_2440;note=MGA_251
sequence06	MetaGeneAnnotator	CDS	1615	2631	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYYFYLIPIIILIIVFLIFNRTSKKPSDHQLFSNALNALVNNEKKRAYEILKQIISKDSSHQEAYLLLGNLYREKNIEKAIRIHQSLIIRPNLSKEFKFQVHKSLALDYLDYDNIEKAKKELSNCLSIRPREYWVLNHLKNLSVEQKNWGDALIYEEKILKFFPENKETDASMLNYFLAKDFQKKDNYKKYVYHLKKSISYANVYPKAYRDLCLLQDNSLDKIIEYFVNYVTIQKNDFVDDCKLIEQKLFDMNAYHQIENLYRQILDSNFNSFAFNRLTDILLEKNEKDKASELIQSVIHEMPNPIIRLNQIKLKVNDLEIRKSLSILCNEMVIDEK;locus_tag=LOCUS_2450;note=Q87N48 lipopolysaccharide assembly protein B (Vibrio parahaemolyticus RIMD 2210633) [pid:22.5%25%2C q_cov:82.8%25%2C s_cov:73.7%25%2C Eval:1.3e-12%2C partial hit],MGA_252
sequence06	MetaGeneAnnotator	CDS	2621	3259	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKYLVFTFFLSFIFSQNSEKLLYEKALTTIEGEIALSLYEQILKSNSMTDYYWLSLRKKAEINYAKGLYISSSNLWKEYNLNAPSSLVDDESKNFLFKSLTVIGEDDSLKYYKKLFSNQASKSQKSQSHVSDKKSLWYIQFGVFSSRESAEIMLDSLSSDGIKNVLIVQLFDRGKMKYYVRTKSFTSISKAQSFAKRNFPKSKDYVIKSN;locus_tag=LOCUS_2460;note=MGA_253
sequence06	MetaGeneAnnotator	CDS	3261	5033	.	-	0	ID=MGA_254;product=oligopeptide transporter%2C OPT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036303.1;translation=MAYLGLYAGMTISASIPAAIMSMGILRLFKNSNILENNIVQTAASAGESLAAGVIFTIPALMLIGYWDSISYVEVTKIALIGGVLGALFTVPLRRALILNAQLKFPEGIATANVLKTGHESKSTQSSKSLKLIGWSALTGAVVKFGELALNVWTSALGGAISIRGAIFGMGASMSPSLISVGYIVGRNIGILIFSGGFISWCIAIPIYSYLFGYEGNSYFEAANIIWNTKIRYLGVGAMVIGGIWSILQLFKPLVESIQLSLKSLNNTDSELPLEERDLPINYVSIAILLMLIPIIFTYFGILNSWVSAIFLSIIMGIFGFLFSAVAAYMAGVVGSSNNPISGVTIATILFSSLLIIGLFNVTESEGAAAAILIGSVVCCAAAIGGDNLQDLKTGYIVGATPWKQQLMQLVGVVSAALTLGFVLTLLNEAYGIGSSELPAPQAVLMMNVAKGVFSGNLEWGMIFFGAIIGILIIILDQIQLRKGSEFRIPILAVAIGIYLPVELTLPIFIGGFINYFASKKATESGNNNGILIASGLITGEALMAIFIAIPLFIDKNFWPSYSLPTPLYELSALIILSLISYRLYKKGKE;locus_tag=LOCUS_2470;gene=oliA;note=WP_011036303.1 oligopeptide transporter%2C OPT family protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:45.2%25%2C q_cov:99.7%25%2C s_cov:94.7%25%2C Eval:5.1e-136],MGA_254
sequence06	MetaGeneAnnotator	CDS	5149	5445	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIFTQLIVLIALTTFNLSLTHNHVDFTSDSFQEISKVEKCDICKLKFSNFNENSITKSLSNLKDFTLNHFFSNDFLIPKLVILNLDNKSPPPFLS;locus_tag=LOCUS_2480;note=MGA_255
sequence06	MetaGeneAnnotator	CDS	5487	7862	.	+	0	ID=MGA_256;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072660.1;translation=MKNILFLLLFLTNIFAGTTIVGKIVDDSDNSPIPDANIEIFIQDSDQYFGRSSDFNGKFTFNDLPGKKALIKVTVIGYEEASIEVLLKNGFVQPIDFRLKKQSISFEEVQVYSSFRKINEGDLTSSARIFNEELEIKKGQHFGDLIQNVPNLNYAGGTSRPKYFQIRGEGSTSRYADQGPPSTYVGLVLDGMDLSELGIITPLFDMQQIEVLMGVQTSLFGANASSGLINFKTNNPSEIREGYFMTQYGSYNTLMNGFVYNTPLKNDWRIRFVGYSNRSDGFKNNSFLNSKTTAKKDESSFRTKIMKSKNNLSQKYTFIISDFDNGYDNWSPDNNISNITYSDNPGKDSQKSSIIIADYLWNVDGYIIDLNLGASSNSTLHSYDSDWGNINFWSEIPYNFNPVIEGYNYDFFDSINREIDTKSADLRWKSDHLLKNNKVDFVFGLFSSMYNETNIADGYIFGGSATNLSSSYKILTQSIYGDVIYNINDDMSLSLALRSEQRDIDYIDNDQPLSNFKINGKNNLSYKLSLESHPANNFHWFTYFAEGYHPAGINQNPYLDEDEKVYDKETYRDITAGIRWINDTWKLSTSIFHLSHKNHIYETSEQLDPLNPNAFAFFKTNADSGYEYGLESTGELKISERFSMKSSLGLMSSEIELRHHEEEHEDHNEHEEDQHGEHGKKAHAPNWNYSISFKFSPNQKNALVVEVSGKDSFIFDSNHDEYQSEPYHILNSYYSRKIDKIEIGLYAKNILNESFAERGFIFGLEPPFYEEKLYTSYGPPRELGMSLTYSF;locus_tag=LOCUS_2490;note=WP_011072660.1 TonB-dependent receptor (Shewanella oneidensis MR-1) [pid:28.2%25%2C q_cov:86.6%25%2C s_cov:93.0%25%2C Eval:1.0e-73],MGA_256
sequence06	MetaGeneAnnotator	CDS	7907	10621	.	+	0	ID=MGA_257;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000825981.1;translation=MSSSKHKKRLFVIDGYASLYRAHYALIRNPLTNSRGFPTGAIFGFANQLFQLIEDEKPDYLVAAFDSKGKNFRHELYTEYKANRSEMPEEIQLQLPFLWKLLESMNIPVIRIDGIEADDIIGSISKLCKNNIQCNIVSGDKDFMQLIDDSTLLYAPQARKREKEIFTPEKVKEKWGVEPKNIIDLLALMGDSSDNVPGVAGIGPKTAQRLINSYGSVEDIYNNIDKIKNEKLKLKLSENKDNAFLSKKLVTILQDVQLDLSIDDFIVQNFNNNQLEDLFSELEFSGLLKKISNQPEEEISIQSRKKSYQTITSIDDLDKFLKSVQENKWLSVDLETTSVNPMKAEIVGFSFSIKKNTGVYIPVTFKDKMKNLFGEDDLQVLLKSLKGILENKLIPKTGQNIKYDALILKRHGIELQGIEFDTMIAAHLLNPNARSYKLDNLSLAFLNYKMVPITDLIGSGKNQIKMNEVSLDDISFYAAEDADVVIELTDIFYQQLKDLKLFNYFKNIEIDLLPVLIEMQYNGIYVDAKFLDERSNEIGKRIDQLESEIKQQAGKDFNVNSSQQLAEVLFDQLGLPLIQKRSTAENVLNILKDKHDLPQLILEYRKLFKLKNTYLDPLPKNINSNSGRIHSSFNQTMTATGRLSSSSPNFQNIPIRSEDGKDVRKAICSDSKDFVIFSADYSQIELRVMAHLSQDQALIEAMKNGEDIHTFTARNIYSLEDDQEVLPEMRRVAKIVNFGIMYGAGPYRLSQELDVTFLEAKNIRDKYFEKFSGIEKYIEENKKQLKEQKFVETLLGRRRAVWDSDSQNQIRRDAAERMAINMPIQGTAAELIKIAMIKIYRDLKNKNLKSKMILQIHDELLIEVHKDELDYISSMVIEKMETALKLDVPIKIDYGTGKSWFEAH;locus_tag=LOCUS_2500;gene=polA;note=WP_000825981.1 DNA polymerase I (Leptospira interrogans serovar Lai str. 56601) [pid:41.0%25%2C q_cov:99.2%25%2C s_cov:99.9%25%2C Eval:3.1e-199],MGA_257
sequence06	MetaGeneAnnotator	CDS	10621	11724	.	+	0	ID=MGA_258;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HJQ1;translation=MKYFGPKFLINLNQLSSNYDLIKSRIDNCDIMATVKANAYGHGAIQIAKTLEKKNVRYLAVFTLDEAIELRNAGIKSNIFIYSRLTIESLKIASKLNLTLNISSFDDLNFLKNNDSENVKVHLKFDTGMTRLGVDAGRAKEFLSEISKVRNINIEGIYSHFSTADEGDLSYANKQLNLFNQVIVIAKSLNIIPTFIHCSNSGAILNLPASRFNLVRVGMLLYGSYPSDEVPKDLNIKPVMSFTAPVVEIRNVLKGTQISYGGVYATTKDTQIAVVQAGFADGVPRPWFEKGYVLFKNQKLKITGRICMDQLMIDVGEKSIQYGDEVLIFGISEDHGEINLNEISDSINSTPYVLMTAVGQRPKRIYY;locus_tag=LOCUS_2510;gene=dal;EC_number=5.1.1.1;note=Q6HJQ1 alanine racemase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:36.5%25%2C q_cov:97.3%25%2C s_cov:92.8%25%2C Eval:2.4e-63],MGA_258
sequence06	Aragorn:1.2.38	tRNA	11874	11948	.	+	.	ID=Aragorn_14;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_14
sequence06	MetaGeneAnnotator	CDS	11968	13173	.	+	0	ID=MGA_259;product=dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403681.1;translation=MHPIKFILIILISFMTFNCNNQDQALKQKAVSLSQKYIITDGHIDVPWRIYKSGYEDLSKRTPSGEFDYVRSKEGGLDAPFMSIYVPSSYQETGGAKEMAIELIDSVKRIANDHPDKFEVAYSTSDVERIFSEGKIALPMGMENGAPIEDDLKNIEFFYNQGIRYITLTHAKDNAICDSSYDTTGTHQGLSDFGKEVVREMNRVGIMVDISHVSDKAFYQVMEVTQVPAIASHSSCRHFTPDFERNMNDDMIKRLAQNGGVIQINFGSTFVTKDSQDKRNYNSELVAQFAKENDLNEGDEELVAYTKKIAEENPIFCDVTDVADHFDHVVKLVGIDHVAFGSDYDGVGDSLPYGLKDVSSYPNLIYHLLKRGYSEEDIEKICYKNVWRVWNATQEFAKNNQ;locus_tag=LOCUS_2520;note=WP_011403681.1 dipeptidase (Salinibacter ruber DSM 13855) [pid:46.0%25%2C q_cov:93.3%25%2C s_cov:91.9%25%2C Eval:4.1e-88],MGA_259
sequence06	MetaGeneAnnotator	CDS	13174	13914	.	-	0	ID=MGA_260;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003132395.1;translation=MNNSTKHKISIYGFNGSIDAMQSNIIKIDKIYIEKDSPAANQKTISELITKNKLNYELMNSSDFSKKIDSNRSQGVLVECTVEVFNDLPKGKKNDECYVILDQVQDPHNLGQILRICASANIDGVIITEHNSVSMTSAVAQVSQGGFSKIPLFCVRNINQCIEFFKGEDFWVTSFENNIKSKNWYEIDLKGRVVLIFGGEGNGVSQLVLKNSDFLATIPMSNKMNSLNVSSAVSAVVFERLRQLIS;locus_tag=LOCUS_2530;gene=trmH;EC_number=2.1.1.34;note=WP_003132395.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Lactococcus lactis subsp. lactis Il1403) [pid:31.4%25%2C q_cov:94.3%25%2C s_cov:96.3%25%2C Eval:3.3e-30],MGA_260
sequence06	MetaGeneAnnotator	CDS	13941	14339	.	+	0	ID=MGA_261;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005463517.1;translation=MIKIKDSDLEFKFVKSRGPGGQNVNKVSTAVQLKFKIDTSNLLEKDVILFKTNYPNKISKSGYIIIYAQNHRTQNLNKKEAINKLHKLFSDINIPVKRILTKPSKSSVEKRLQTKKRKSLLKKTRRKVINEA;locus_tag=LOCUS_2540;note=WP_005463517.1 aminoacyl-tRNA hydrolase (Vibrio parahaemolyticus RIMD 2210633) [pid:35.1%25%2C q_cov:97.0%25%2C s_cov:94.2%25%2C Eval:7.2e-15],MGA_261
sequence06	MetaGeneAnnotator	CDS	14329	14868	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLKLLILLIICFLQSQEIEKNEIILKNFYQNDFSDLELIFIASINKNINFESDNSIMLRNNLKLSAPTYDRFNRLNNQGMYLPYKNNSSIYLDFNIEGFMQASRYILENNSDNTTSFFKDDYEKFTYFNTRKGYIDARNYFRDPWNQKSFQDYINHMYVPPFIKHQEINTIYDSKRSN;locus_tag=LOCUS_2550;note=MGA_262
sequence06	MetaGeneAnnotator	CDS	14846	16315	.	+	0	ID=MGA_263;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67631;translation=MILKDLISFYIEERNLNNLFLEVIDRPVLGIETNSQKIKNGYIFIAIKGDKIDGNNFINDAIDNGAICIFSDSAKKEYFIDSIPIFPVSEPREFVGKICSRFFGYPQKNIKIIGITGTNGKTSTISILKNIFEASGKKTLQVGTLGLVPKILDDYNGLTTPDTVEAYKILNKAVENAYEYVLFEVSSHALVQNRLSNIKFRIASFTNISRDHLDFHKTFEDYFLAKSKIFHSIDLNGKKLINIDCMYGQRLNEIEEESLTLSTSGRNADFACIDYKVSMEGIFANFRFFDKEFSISSSLIGKIYIENILMASAIAFLSGCSFFDIIKGVKEITSINGRLDRVENIPNDIFLDYGHSPAALEATLSSIKEISEKKIKVLFGAGGNRDKTKRSFMAKSVEKYADFIYLAPDNPREEKIQDINQQVALGFKKNNHKIFLDRGDALKEALLDLNTEDVLIIFGKGNETYQEVLGEKQYYSDKEIILEFYENRN;locus_tag=LOCUS_2560;gene=murE;EC_number=6.3.2.13;note=O67631 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Aquifex aeolicus VF5) [pid:36.1%25%2C q_cov:94.7%25%2C s_cov:94.6%25%2C Eval:5.6e-77],MGA_263
sequence06	MetaGeneAnnotator	CDS	16299	17567	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIEIKEKSFFNSIFTDYFKISKDTTIQGITNDSRLVQENDLFIALNGKFVNGNAFNQEVLSKKNTLIVSEEAFEDGRIYNVESIDNFLKDLCKYWINKTKAFKIAVTGSNGKTTTKELIHHLLLKNNFTAEKTEGNYNTSIGVPLSLFSFSLESDYYIFEFGANQKGDIEKLTKMITPDFGLVTSIAEAHMEGFLDIENIKNEKKKIIEFSKKGSFGPDKSIESVLLKVKKILKDSLYSSNHHLIYNMALVVSILNEVLIIDEKKLLNGLKDFSLPPGRGNIFELIFNGKKIFVIDDSYNANPSSVRAAIENLHLLKIKKINKKIFIFGDMKELGKNKKDFHSSIGKLIDNKINCFFSIGNLAKETFDSAIMVPNKYHFDNQLDLYLELTKIIESNDVLLFKGSRSMNLNRIIEKLISESK;locus_tag=LOCUS_2570;note=Q8RDP8 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:29.7%25%2C q_cov:97.6%25%2C s_cov:70.1%25%2C Eval:3.1e-41%2C partial hit],MGA_264
sequence06	MetaGeneAnnotator	CDS	17572	18678	.	+	0	ID=MGA_265;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFT8;translation=MFLEIFFSDSFSPISNLYSYITFRAGASAILALLISFIFGPRIVKALISLQVKENIRDFGPESHKKKADTPTMGGVLIIFSTIIPTLLFADLSNLFIRIVCLSMIWMGSVGFVDDYLKVVKKKKDGLSARYKLIFQTILGLIISYLLISSNVYSDYTFQTFVPFFKDVVLNLDNWIIYTFFIVLVVTATSNAVNLSDGLDGLATGLLAISISVFIIIAYISGRVDFTEYLYIEYLPLASELTIFSAAFFGGCLGFLWFNAKPALIFMGDVGSLSSGAALGTLAILLKKEALLIIVGGVFVVEALSVIIQVFYFRYTKKKYGTPRKFFLMAPIHHHFELKGWPESRVVIRFWLIAILLAILSLTSFKVR;locus_tag=LOCUS_2580;gene=mraY;EC_number=2.7.8.13;note=B5YFT8 phospho-N-acetylmuramoyl-pentapeptide-transferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-79],MGA_265
sequence06	MetaGeneAnnotator	CDS	18681	20459	.	+	0	ID=MGA_266;product=4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64N34;translation=MRRKTNSVKVGKVNIGSDFDIVVQSMVTSSTLNTIDCINEAIEIIEAGSQLVRFTAPNIKEAKNLGLIKKGLIKKGYDTPLVADIHFTPNAALEASSIVEKVRINPGNFIDRKKFLTFEYTDEEYNLELEKIEEKLIPLIESCKKHNTALRIGTNHGSLSDRIMNRYGDTPLGMVESALEFLRICKKNNFDQVVLSMKSSNPLVMVHAYRLLVYKMNKEEMFYPLHLGVTEAGDGIDGRIKSSIGIGLLLLEGIGDTIRVSLTEDSKYEIPVCKQIIDKVLSTDQSESNFESNRSFSFLKRQSNSVYFIGGEHAPVVISDSKTNNTFKSDLIFSEETNSLNPNNNYVIPAENLLEIQENVFPLFSSIGDFRKSKILSSKLNFLILSKNSARKDILKSINSNLVIILDFEEFNRNEIIELLDYFEKENINFPVIFKCKYLSKNINELAVHASIDIGTLLLEGFGDGIWLNLHHKKEFSSELAFTILQNTRRRIFKTDYISCPSCGRTQFDLQKTTNLVKEFTSHLKGLKISVMGCIVNGPGEMADADYGYVGSGKGKISLYKGKELIQRNVDSKNAVDELINLIKANNDWIEP;locus_tag=LOCUS_2590;gene=ispG;EC_number=1.17.7.3;note=Q64N34 4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin) (Bacteroides fragilis YCH46) [pid:43.8%25%2C q_cov:99.7%25%2C s_cov:96.6%25%2C Eval:4.9e-131],MGA_266
sequence06	MetaGeneAnnotator	CDS	20508	21560	.	+	0	ID=MGA_267;product=mechanosensitive ion channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942993.1;translation=MNKVLDKLIYLWESSLNPLFIILIGIVSGIFFKKYIFGKIKTLTKNTSWKGDDIAINAINSVLVFWFFLGSLSFAIKNSVLSESYALLASNIVSAFLVISISFTLSKIIIGLLDLWSSSNSSVPSTGIFKGLVNFSIFSIAIIYILQSFNVSIAPLITALGVGGLAVSLAMKDTLADLFGGLNLLISQTMKEGDYIELDNGHQGYIQNIGWRFTTLKERSNNIISIPNSVLSGSISKNYTKEDASFRVPIQIGVSYDSDLSHVEKVTLEVAKEIYSKLDCVDKSYDPTIRFREFGDSSINFFIYFQGKAFGDHNEILNEFIKKLHVRYKEENIEIPFPIRTLIHKNEVKN;locus_tag=LOCUS_2600;note=WP_010942993.1 mechanosensitive ion channel protein (Geobacter sulfurreducens PCA) [pid:39.4%25%2C q_cov:95.7%25%2C s_cov:96.0%25%2C Eval:1.8e-68],MGA_267
sequence06	MetaGeneAnnotator	CDS	21544	21981	.	+	0	ID=MGA_268;product=deoxyuridine 5'-triphosphate nucleotidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97J61;translation=MKLKIKPFNSKVRLFYDNHSHFHSGDAGLDLFIVDNQLIKGKSSSSIHLQIACENLDNKAYYLFPRSSISKSPLRLANSIGLIDGGYRGEIVAMVDNIYDEDYEVKEGERYFQLVAVDSSPIEFEIVEELSISTRGEGGFGSTGR;locus_tag=LOCUS_2610;gene=dut;EC_number=3.6.1.23;note=Q97J61 deoxyuridine 5'-triphosphate nucleotidohydrolase (Clostridium acetobutylicum ATCC 824) [pid:41.5%25%2C q_cov:84.1%25%2C s_cov:84.8%25%2C Eval:8.7e-17],MGA_268
sequence06	MetaGeneAnnotator	CDS	22077	22391	.	+	0	ID=MGA_269;product=10 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H124;translation=MSLKIKPLEDRVVVEALSADEKTASGIILPDTAQEKPQQGTVLVVGPGKPSECSDCKCNDKCCSTLMTVKVGDKVLYGKYSGTEISYEGKDLLIMRESDILAIL;locus_tag=LOCUS_2620;gene=groS;note=A6H124 10 kDa chaperonin (Flavobacterium psychrophilum JIP02/86) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-26],MGA_269
sequence06	MetaGeneAnnotator	CDS	22410	24050	.	+	0	ID=MGA_270;product=60 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KF02;translation=MSKEIAYNTEARNSLKKGVDQLANAVKVTLGPKGRNVVIERKFGSPLVTKDGVSVAKEIELENALENVGAQMVKEVASKTSDVAGDGTTTATVLAQSIIAEGLKNVTAGANPMAIKKGIDLAKDSIVKSIAKLSKEIPDSNQIAQVATISANDDKEIGSKIAEAMDKVGKDGVITVEESKTAETYLEFVEGMQFDRGYLSPYFVTNSDSMEAELDDPFILVHDKKISNMKDLLPILEKVVQSGRPILIIAEDIEGEALATLVVNKLRGTFKVLAVKAPGFGDRRKAMLEDIAILTGATVISEEQGYKLENATLEYLGSCKKVVSDKDNTTIVDGIGKKESITARVNEIKVQIEKTSSDYDKEKLQERLAKLSGGVAVLNVGAATEVEMKEKKARVDDALHATRAAVEEGIVPGGGVALLRASVDLKNLKSENSEEQVGIDIMKKALEGPIRQICSNAGVEPSIIVQKVLEGKNDFGYDARNNEYVNMFKAGIIDPAKVARVAVENAASISGLLLTTEAAITEKPEENNSPMPGAPDMGMGGMGGMM;locus_tag=LOCUS_2630;gene=groL;note=Q8KF02 60 kDa chaperonin (Chlorobium tepidum TLS) [pid:69.2%25%2C q_cov:96.2%25%2C s_cov:96.5%25%2C Eval:3.6e-205],MGA_270
sequence06	MetaGeneAnnotator	CDS	24138	24650	.	+	0	ID=MGA_271;product=2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832213.1;translation=MANLEKVYLSVGSNLGDKESNIASSIVILSSDKEILNIRTSSFYETEPLYNKNQSNFLNIMIECETTLTPFKLLDKISEIEKILGRKRKDVKNLPRTIDIDIVIFGDFFIETSQLSIPHPQALFRKFVLVPLKELAPELIFPKTKYTVTELLLNCPDNSSVVKYNIGKIA;locus_tag=LOCUS_2640;note=WP_001832213.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase (Staphylococcus epidermidis ATCC 12228) [pid:42.8%25%2C q_cov:93.5%25%2C s_cov:97.5%25%2C Eval:7.6e-25],MGA_271
sequence06	MetaGeneAnnotator	CDS	24651	25298	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFQSYIAIEGPIGVGKTSLATKLAVSLNARKVFEDFNENPFLADFYDDIENNALQTQMWFLLQRYRQQQKDIKQLNAFQKGVVSDYMFEKDRLFAEFILNSQDEFDLYSKVADILEKDILKPDLVVYLQAETSRLMQNIRKRGRKIEKGITSDYINQVNEKYQEFFLNFDEERSLLIINTTNIDFVNNEDDYENILQLIQEPVNGVKYFNPGN;locus_tag=LOCUS_2650;note=WP_011962567.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase (Flavobacterium psychrophilum JIP02/86) [pid:43.3%25%2C q_cov:93.5%25%2C s_cov:52.4%25%2C Eval:1.1e-41%2C partial hit],internal stop codon at [24648:24650](+),MGA_272
sequence06	MetaGeneAnnotator	CDS	25299	25448	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLLIIFLILFFVYRKISKTNIVDSPIKSNKINYKEIEDVDFEEINKD;locus_tag=LOCUS_2660;note=MGA_273
sequence06	MetaGeneAnnotator	CDS	25417	26019	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLKKLIKISLFLFLFNFAFGQIGKKSSDLNFIFANNGYGFGFENTKQKNEVLQIGLDLRVYDIRRDEYTIYNEFYNQFGVIGEKSILMIPVYGRINYLLFQDKIANNFKPYFFISAGALIAVDGNENERSFRKKWFEAETQVVPSLSTGFGVDFNSIGQGNSISLGIGYDYFKTKEPIHNKDDYGGIFLYLKYRIKSE;locus_tag=LOCUS_2670;note=MGA_274
sequence06	MetaGeneAnnotator	CDS	26012	26740	.	+	0	ID=MGA_275;product=ribosomal RNA small subunit methyltransferase E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H011;translation=MSNCFFLSKKLIEKKTFQLDAQESKHITSVLRLHVGEKIFLSDGQGTVYQAQIEKIDNKIVQGKIIKSFDNLNETSYYLHLGLPLINKNRFKFALEKAVELGVKEITPIKFSRSQPFNLSESKMNSIILSASKQSVRSIFPKLNKIRNLQEWHSIESVNLVAKIDSDFSLFSKMNTILNEYKKFKKISILIGPEGDFSPDEITFLNENNFQDICLGKTILRTETAIISMIAILNEIFENEKH;locus_tag=LOCUS_2680;EC_number=2.1.1.193;note=A6H011 ribosomal RNA small subunit methyltransferase E (Flavobacterium psychrophilum JIP02/86) [pid:37.0%25%2C q_cov:94.2%25%2C s_cov:95.3%25%2C Eval:3.9e-28],MGA_275
sequence06	MetaGeneAnnotator	CDS	26727	27077	.	+	0	ID=MGA_276;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546430.1;translation=MKNTKSIFEMIVDREIDAKIVYEDDLVISIEDINPVAPYHFLIIPKEKISTLNDLNNSHKELLNRIFEVARNIAKEFNFDQKGYRTIFNCNEYGGQTVYHIHLHLISGRKLGWPPG;locus_tag=LOCUS_2690;note=WP_012546430.1 histidine triad nucleotide-binding protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:51.8%25%2C q_cov:94.8%25%2C s_cov:97.3%25%2C Eval:4.2e-31],MGA_276
sequence06	MetaGeneAnnotator	CDS	27081	29204	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISKIELYGFKSFAKKEIIDLQKGITVVVGPNGCGKTNIVDAIRWVLGEQKTTKLRSSKMEDVIFNGASSIKPLGFCEVFLTIQNDKGLLPVEFEEVEIGRKLFRSGESEYYLNRNQCRLKDIFNLFVDTGMSSDAYSVIELNMIEKILSDYDDSRRSMFEEAAGINKYKSQRKSAINKFELNQRDIERIDDIILEIQEQVNYLGLQFKRLKRFQSLNENLKEMEIKLASKKVYDLEEIVNHNKSIIENLNKKLENFSTKKEAKNSEIDNISNKYFSEKSKLTELKQFVDDLTEKLLSEIQEKNKESSRGVEILENELQRRMDQLTSFDKDYIKIVSSCDECNSGLNLQVSCSKCGKIHDSSSFKLIESDKKYEELKKSIKDYRDKIKNYKNEKELDFSAMDKSIDKIKEEITLNKSRLEKQEEKTNKAYVELETLRQKISNEGMDREEIIFEIKNYEIKITESTLRISQIKENIIEKYGENIRFTKDKNINLSELSFEVEKIRRSVDSIGPINWAVESEFEEKKKRLDNLIDQREDLISAEKNLKEAILKIDSVAKEKFLETFEIINANFEKMFSSFFLGGKGYIFLENQEDPLSSSINIFAQPPGKNNKVLKSLSAGEKSLTAIALLFSIYLYKPSPFCILDEIDAPLDDINIKKFTDVIVEFSKSTQFMIVTHNKLTMESANIIYGVTSEQQGVSKIISIDLN;locus_tag=LOCUS_2700;note=Q8KBS6 chromosome partition protein Smc (Chlorobium tepidum TLS) [pid:32.1%25%2C q_cov:78.9%25%2C s_cov:48.0%25%2C Eval:2.9e-72%2C partial hit],MGA_277
sequence07	MetaGeneAnnotator	CDS	112	510	.	+	0	ID=MGA_279;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RIH0;translation=MSMTDPIADFCTRIRNGYSSNKRWIDIPSSILKKRISLVLKEEGYIDNFVFVKKDSNKEDIRIYLRYENSTPAITSIQKISKPGKRVYVGCSEIPRVLNGLGISIISTSKGVLSSKVARELKIGGELLCNIY;locus_tag=LOCUS_2710;gene=rpsH;note=Q8RIH0 30S ribosomal protein S8 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-33],MGA_279
sequence07	MetaGeneAnnotator	CDS	514	1056	.	+	0	ID=MGA_280;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:D1B5W0;translation=MSRVGKRTITIPDSVKISDSSKILTISGPKGEMKVNLFEGISVDISENSLSVTRSSDEKTLRAMHGTMRQLISNAIDGVNNGFSKVLQIQGIGYAARTENNRLVLQLGFSHDIAIDLPDGVEALVQKNEVEIKGINKQIVGQFAAKVRSLRKPEPYKGKGIRYKGEYVRSKQGKKVGGKD;locus_tag=LOCUS_2720;gene=rplF;note=D1B5W0 50S ribosomal protein L6 (Thermanaerovibrio acidaminovorans DSM 6589) [pid:46.3%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:4.6e-42],MGA_280
sequence07	MetaGeneAnnotator	CDS	1056	1415	.	+	0	ID=MGA_281;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q4ZMR0;translation=MKALEIKKIQYNRRRRRSKIAFPVDGKLRLCVFKSAKHIEAQIIDDFNQKTMVAASSKEKTFANEKKNKTEIASMVGKLLSERAKKLKIDQVYFDRNGFRYHGRIKSLADSSREGGLNF;locus_tag=LOCUS_2730;gene=rplR;note=Q4ZMR0 50S ribosomal protein L18 (Pseudomonas syringae pv. syringae B728a) [pid:42.2%25%2C q_cov:97.5%25%2C s_cov:100.0%25%2C Eval:7.9e-22],MGA_281
sequence07	MetaGeneAnnotator	CDS	1424	1930	.	+	0	ID=MGA_282;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WH83;translation=MAIVNHSELDLREESVIRINRVAKVNSRGKRFSFSSLVVIGDGKSYVGIGSGKATEVLVSISKAKDDAKQNLVKIPVINYTIPHEVIGKHGASKVLLKPAPFGTGIIAGSSVRLIMEQVGVNNIYSKVLGSNNAMNVAKATMNALNSLQDVRKVAKKRGRTPKTLFEI;locus_tag=LOCUS_2740;gene=rpsE;note=A9WH83 30S ribosomal protein S5 (Chloroflexus aurantiacus J-10-fl) [pid:50.0%25%2C q_cov:97.6%25%2C s_cov:91.6%25%2C Eval:1.9e-41],MGA_282
sequence07	MetaGeneAnnotator	CDS	1932	2120	.	+	0	ID=MGA_283;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS3;translation=MANKKVKVTQIKSRIGYSVKAKATLDALGLTKMHKSVILELNDSIAGMLNKIDYLIRVEEVK;locus_tag=LOCUS_2750;gene=rpmD;note=Q9ZCS3 50S ribosomal protein L30 (Rickettsia prowazekii str. Madrid E) [pid:46.0%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:8.5e-08],MGA_283
sequence07	MetaGeneAnnotator	CDS	2124	2555	.	+	0	ID=MGA_284;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5F5U6;translation=MKISKPINSVKSTKRVGRGSGSGLGATSGRGHKGGGQRSGFKHRYWFEGGQMPLHRRLPMRGFNNKNFETSYEIVNLSQLSKIKVKNIDLDVLAKEGLISSSFSAVKILGNGEISKEINISASSFSKSAKEKIEKAGGKVNIL;locus_tag=LOCUS_2760;gene=rplO;note=Q5F5U6 50S ribosomal protein L15 (Neisseria gonorrhoeae FA 1090) [pid:42.9%25%2C q_cov:97.9%25%2C s_cov:96.5%25%2C Eval:8.3e-25],MGA_284
sequence07	MetaGeneAnnotator	CDS	2552	3853	.	+	0	ID=MGA_285;product=protein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAJ1;translation=MIQKIKNIFSIPELRSKILFTVAILIVVRLGSQVPIPGINPDALRQTMESLSNTFFGLYNLFTGGAFSQAAIFGLGIMPYISVSIIVQILQTTLPYFQRLSQEGESGRAKINQIIRYGTVILAMVQSIGIAYLLESYGIVINPGFLFRFTAIVSITTGTMLLLWLGEKITENGIGNGISLIIMAGILAAFPNVVISEISYFQQGVRGILSEFALMILFFFLVMLIVLVQQGVRKVPIQYARRIIGRKVYGGQNTYLPLKINTAGVIPIIFAQSILLIPGTIATFFGQDATQSNFMSWFAMDHWFSNVCFAILIIFFTYFYTALQFDPNQVSSTLKQQGGFIPGVKPGKKTAEFIENILTKVTLPGAIFLGFIALMPYFLTQFGLDYAYASFFGGTSLLIVVGVGLDTLSQVENHLLSRHYEGFLNKGRVKSRR;locus_tag=LOCUS_2770;gene=secY;note=Q8KAJ1 protein translocase subunit SecY (Chlorobium tepidum TLS) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:9.8e-131],MGA_285
sequence07	MetaGeneAnnotator	CDS	3853	4608	.	+	0	ID=MGA_286;product=methionine aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YG27;translation=MVDINNNSEVQAMTESCQILCDTLNHIEKYVIPGESVLKLDSIAEDYILSKGGIPAFKGYNGYPSTLCISIDDEVVHGIPQNIFLEEGQIVSIDCGVLKNNYYSDSARTFPVGKISDEKQKLIEVTQRALEIGIEKAIPGNKVFDISDSIQKFVESNGFSVVRELVGHGIGKQLHLEPQIPNFSVPKTFSLDTLLVEGMCLAIEPMVNLGKKDIYTLEDGWTIKTKDGSPSAHFEHSVLITKFQPRILTKN;locus_tag=LOCUS_2780;gene=map;EC_number=3.4.11.18;note=B5YG27 methionine aminopeptidase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:51.4%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:3.0e-71],MGA_286
sequence07	MetaGeneAnnotator	CDS	4610	4834	.	+	0	ID=MGA_287;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WSB2;translation=MAKQEPISVEGTIKEALPGSRFRVLMNIGGKEHEVLAEVSGKMRMHFIKMLPGDKVDLELSPYDLTRGRITFRH;locus_tag=LOCUS_2790;gene=infA;note=Q1WSB2 translation initiation factor IF-1 (Lactobacillus salivarius UCC118) [pid:61.6%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:5.6e-20],MGA_287
sequence07	MetaGeneAnnotator	CDS	4956	5330	.	+	0	ID=MGA_288;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RSJ9;translation=MARIAGVDIPKNKKLAYSLRYVHGIGLHTALQICELSKVDPDLRVSDLSSAQEDALRKTILDLKILVEGELRSENLKNMKRLQDIGSYRGLRHRKSLPSRGQRTKTNSRTRRSGKKTTISLGRK;locus_tag=LOCUS_2800;gene=rpsM;note=Q9RSJ9 30S ribosomal protein S13 (Deinococcus radiodurans R1) [pid:53.8%25%2C q_cov:94.4%25%2C s_cov:92.1%25%2C Eval:3.9e-29],MGA_288
sequence07	MetaGeneAnnotator	CDS	5333	5722	.	+	0	ID=MGA_289;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q749B1;translation=MAVRNRVAKKSKKKISPNGIVHIKATFNNTNITVTDEYGNVIAWATAGKAGFKGSRKNTAYAATVASEKVASEVVSMGLATVSVRVKGPGAGRESAIRALSTAGLHVTSILDVTPLPHNGCRPKKQRRV;locus_tag=LOCUS_2810;gene=rpsK;note=Q749B1 30S ribosomal protein S11 (Geobacter sulfurreducens PCA) [pid:59.3%25%2C q_cov:95.3%25%2C s_cov:93.9%25%2C Eval:4.5e-38],MGA_289
sequence07	MetaGeneAnnotator	CDS	5731	6345	.	+	0	ID=MGA_290;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NN4;translation=MAKLSTPKGKLVRKLGTNIFGNPKFDKLLSKKGYGPGQHGKSGKRLSTYSTQLQEKQKIKFTYGMLEKQFRTYFQKASQMKGETGLNLLIMLETRLDNIVFKLGFAPSRPSARQLVSHGHFLVNNKKVNIASYRMKPGDIVQVREKSKKIDIVLNSVKMIKGDLSTAWLSLDKAKMEGTLVSLPERSEIDMTINEQLVVEYYSR;locus_tag=LOCUS_2820;gene=rpsD;note=Q64NN4 30S ribosomal protein S4 (Bacteroides fragilis YCH46) [pid:52.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-51],MGA_290
sequence07	MetaGeneAnnotator	CDS	6363	7328	.	+	0	ID=MGA_291;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S3N9;translation=MGNDLKFKINENSTGSNSSNFTIKPLNRGYGITIGNSLRRALLTAVPGSAITNIKIEGALHEFSTIDGVKEDVADIIMNLKGVRFKLFESSVEPVFIKIKGKKTFTAADIQAASSDFTILNPDHYITDISAGTSLEIELRLGIGVGYKSSDENKLNNSPVGMIPIDSIFNPVTKVSFNVTALPGAKADTELLSLDVTTDGSITPIDAVSYCSSVLAQHFNIINSISNPAVLEVDKPVSEEILQIRKLLHSSIDEMELSVRSHNCLEAAGITLIGELVEKDEAEMLEYKNFGRKSLNELIEKLEGMGLRFGMDTNPYIEEEV;locus_tag=LOCUS_2830;gene=rpoA;EC_number=2.7.7.6;note=Q2S3N9 DNA-directed RNA polymerase subunit alpha (Salinibacter ruber DSM 13855) [pid:46.5%25%2C q_cov:97.2%25%2C s_cov:95.7%25%2C Eval:3.2e-77],MGA_291
sequence07	MetaGeneAnnotator	CDS	7329	7757	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKRISSKKFGRDRDHRTAMISNLACSLIEHKRIRTTHAKAVELRKFIEPMVTKSKNPTLHNRRTVLSKINNQKAVAELFSIIGPAFSERDGGYTRIIKIKSRVNDAAKMALIEFVDKSSLDSNVSDLSPSDSSSEETLADN;locus_tag=LOCUS_2840;note=Q64NN6 50S ribosomal protein L17 (Bacteroides fragilis YCH46) [pid:54.1%25%2C q_cov:76.1%25%2C s_cov:68.9%25%2C Eval:2.5e-26%2C partial hit],MGA_292
sequence07	MetaGeneAnnotator	CDS	7759	8238	.	-	0	ID=MGA_293;product=protein YtsP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O34553;translation=MQNLTSKEKIYDEILKLIKSNVSNYKSDENQRKSYNHSLINYSLEILYNEFPNWIFCGLYKKFEEGLCIDLYYSDNIPCSPISFEGVCGQSIMKNSILNVGDVNKFPGHIVCDINSKSELCIPFNIDDIFYVLDIDSNKVNDFDKIDEISLLEIIKIWK;locus_tag=LOCUS_2850;gene=ytsP;note=O34553 protein YtsP (Bacillus subtilis subsp. subtilis str. 168) [pid:35.9%25%2C q_cov:89.3%25%2C s_cov:84.0%25%2C Eval:2.6e-13],MGA_293
sequence07	MetaGeneAnnotator	CDS	8233	9150	.	+	0	ID=MGA_294;product=sulfotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122763.1;translation=MHIMNKNNNKTINPIFISGIPRSGTTLVGNILGSIKNFQVIYEPFHFHQGIKSLKQKYLIPNANIDETEFLNLLKELSDGKSRFKIGIKDNDTISKKILKLTLGNPSSFSYKKYIFSSNKQLVVKDPFLIFSSIYLSQFYKIIITERPLIPLASSLKRMRWIFSEANEVRNDLETIGINIRLFDTDQDISKEVLGCIHFNQIFIKILQEIKENEKIHIFNQNNFIENPKKEIQYLYSFLNVSVDDRITEKVINKTMNSKSENYKPREKMQHDRHYNKLFSNKYYAEILTKKEIEILKNFNNEFFL;locus_tag=LOCUS_2860;note=WP_011122763.1 sulfotransferase family protein (Rhodopirellula baltica SH 1) [pid:24.3%25%2C q_cov:95.4%25%2C s_cov:92.3%25%2C Eval:1.9e-23],MGA_294
sequence07	Aragorn:1.2.38	tRNA	9147	9221	.	-	.	ID=Aragorn_15;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_15
sequence07	MetaGeneAnnotator	CDS	9306	10646	.	+	0	ID=MGA_295;product=glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HVJ7;translation=MRYNSKEDFLKKVGDKYSNEKEFIQAVDEVINSIWDFTHQNHNYVDLNILDRIIVPERIIIFRVPWIADNGEVKVNTGYRIQFSSAIGPYKGGLRFHPSVNLGVLKFLAFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDKEIMAFCQSFMNELYRHIGSDTDVPAGDIGVGGKEIGYMFGQFKKLQNNFTGVLTGKNPLWGGSLLRPEATGYGLVYFVEEMLSYHKKSIKGMTVAISGSGNVSQYACEKVIEMGGKVVTLSDSSGYIYDPEGISQDKLQFVMKLKESRSARISEYADKYNVKFVEGKRPWEVKCDIALPCATQNELDENDAKQLTSNGCILVAEGANMPSTKEAVHHFINKKLLFGPGKAANAGGVAVSGIEMSQNSTRVPLKRDEVDVLLKSIMKNIHKTCVQYGSFNDYVNYVDGANIGGFVRVADSMIHQGIV;locus_tag=LOCUS_2870;gene=gdhA;note=Q9HVJ7 glutamate dehydrogenase (Pseudomonas aeruginosa PAO1) [pid:60.6%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:3.0e-159],MGA_295
sequence07	MetaGeneAnnotator	CDS	10672	11877	.	+	0	ID=MGA_296;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2D3;translation=MLRKLNTIDFQSSKYNFGRTVLIRFDFNVPIENEKILDDFRIQQSIPTIKFCLEQGAKLVLMSHLGRPNGNVDKNLSLIPVGEKLAEILEMPIKFSHDCISDDAIEVSKSLKDGEIHLLENLRFYKEEELNDPKFASKLSSHGSIYINDAFGLTHRLHASNSSIIDNFSVKGIGLLIEKELQYLSDSLKNPQKPLTLIIGGAKIGTKIDIINNFLDIADNILIGGAMANTFLFSKGKNIGKSLFEKEKVKNAREILENAKKSKTKIHLPLDSTGSMNNLINKKDFTLKTNQIEDDMVIADIGPETVELYTSIISTSKTVFWNGTMGVSEMSHFSEGNNKIIDSIVSSNSESIIGGGDTISSITNYNKSFLSEFSHISTGGGATLHLLGGNKLPAIDILDRK;locus_tag=LOCUS_2880;gene=pgk;EC_number=2.7.2.3;note=B8E2D3 phosphoglycerate kinase (Dictyoglomus turgidum DSM 6724) [pid:41.5%25%2C q_cov:95.8%25%2C s_cov:96.2%25%2C Eval:6.8e-83],MGA_296
sequence07	MetaGeneAnnotator	CDS	11874	12611	.	+	0	ID=MGA_297;product=triosephosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181T6;translation=MKKITIALNWKLYLNELESIEFVEKINHSKNQFDLIDLEIYPSATAIRSVRNVLNHSSIKIGLQDFSIFEKGAFTGSLSLSSIEVDCCIVGHSERRDFYNENDNLILKKLQISNAKKISTILCVGESLNEKEEGLGKERIKSQLSILKNLDIQIPLTIAYEPIWAIGTGEVPSKEYISDMLSTIKSELNTLYSHEKNSALRLFYGGSVDETNIRNLSDIVLLDGFLIGSAGSKFEKLMKMVNNLI;locus_tag=LOCUS_2890;gene=tpi;EC_number=5.3.1.1;note=Q181T6 triosephosphate isomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:36.7%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:1.8e-36],MGA_297
sequence07	MetaGeneAnnotator	CDS	12623	12979	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQFLIVLHTLVSILLIFAILMQSGQGGLNSMLSGTANSMLGSTGANDFMTKLTTWLGITFIGLAILIGALSGNKTLNSSSIIQQDAIINAVENDIVEEYALPSGNLIPEATSDTSTE;locus_tag=LOCUS_2900;note=WP_011404842.1 preprotein translocase subunit SecG (Salinibacter ruber DSM 13855) [pid:40.4%25%2C q_cov:73.7%25%2C s_cov:68.5%25%2C Eval:5.5e-07%2C partial hit],MGA_298
sequence07	Aragorn:1.2.38	tRNA	12989	13073	.	+	.	ID=Aragorn_16;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0160;note=Aragorn_16
sequence07	MetaGeneAnnotator	CDS	13103	14305	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYISLVLLASLIFSQNADNLFKESQNALSNGDLKLAGEKINAAINADNGNQLFREEEKRLRDLVNKLNNSNRALQDGRFDDAISGFSDLTKDVPKLTDAFYGTGKAYEGKSDYSMAVSFYKQALKIDSNHENSKKSISNVAKRLYNEANQDYKNGNLESSMNKYSQVIDINPNLYQAYFQMGVLSKRMGNISSAIDNYKKALEIKKNFDKGWYALGLAYKDYGDINNAKDAFEQTIKLNSKYAKAHKSLGEIYLDSENFENALASFQNAIKLESDFSSAYHAMGITYSKMGDYKKSVEALEQAANLDKKEFLIWFDLSASYNALNMCDQAKSAAQESIDLKKNFGGGWFELGIAEYCNGSGNKNLAINHFEKARNDRDWRKMAEYEIDRVRNPQKYDQ;locus_tag=LOCUS_2910;note=YP_008686569.1 hypothetical protein (Borrelia burgdorferi B31) [pid:24.6%25%2C q_cov:50.2%25%2C s_cov:18.8%25%2C Eval:8.2e-12%2C partial hit],MGA_299
sequence07	MetaGeneAnnotator	CDS	14302	14985	.	+	0	ID=MGA_300;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867638.1;translation=MIKAVFFDLDNTLLDFVKMKSEAVKNALNAMVESGLNIDPEASFNKIQSIYEKEGWEHQEVFNKFIENEIGFVDNKHLAAGIVAYRRAKEANLKPYPGVRKTLHQLMKMGIKLAIVTDAPSREAWMRIHQMNLHHIFDEVITLDESGERKPSSKPFEIALQNLGLTKDEAIMIGDWPERDIAGANSVGIKSVYARYGSMFDIDNSGANWDADNINELVNIIKSINEN;locus_tag=LOCUS_2920;note=WP_010867638.1 haloacid dehalogenase (Pyrococcus abyssi GE5) [pid:32.0%25%2C q_cov:99.1%25%2C s_cov:95.8%25%2C Eval:2.6e-31],MGA_300
sequence07	MetaGeneAnnotator	CDS	14975	15334	.	+	0	ID=MGA_301;product=holo-[acyl-carrier-protein] synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7C5;translation=MKIKIQSGIDIVKISRIHSILNSEKRNRFIKKIFTDNEVLQSKEKSDEVLYFSGRFAAKEALKKALSNTFYPSHFKSFEILADKNGKPNVFFEKKIIENTSLSISHDGNYAVAQCVSIL;locus_tag=LOCUS_2930;gene=acpS;EC_number=2.7.8.7;note=A5I7C5 holo-[acyl-carrier-protein] synthase (Clostridium botulinum A str. ATCC 3502) [pid:40.0%25%2C q_cov:89.1%25%2C s_cov:89.7%25%2C Eval:1.1e-12],MGA_301
sequence07	MetaGeneAnnotator	CDS	15335	16597	.	+	0	ID=MGA_302;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q748B3;translation=MDYFEIIGQNHLQGELEINGSKNAVLPLIAASILNENSVQKFTNVPLLSDTLTILKLLEEMGSSVKKSENSISIDNSTLKNPFAPYDLVKTMRASFYVLGPLIAKFGKARISDPGGCSWGPRPIDFHIKGLELLGVDFTRDHGYLSACTKGLKGSNISFPKISVGATGNVVMAAVLAKGKTKIFNASSEPEIQQLCNYLNIMGAQISGIGSNELVIEGVSSLTTNKPIEVIPDRIEAGTFLIAAAAVGGEVQLSNVVVDHLSMVIQKLRETNVQIETNSSSVRIKSNPSTLKAVDLETSEYPGFPTDLQAQWMSLMSVVNGDSKLKENIYFDRFTHVPELNRLGCNISLNKNTAKIKGQSYLSGAQIMSTDIRASAALIIAALCAEGLSRIDRIYHIDRGYYKIEDKLSKIGANIVRKKT;locus_tag=LOCUS_2940;gene=murA;EC_number=2.5.1.7;note=Q748B3 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Geobacter sulfurreducens PCA) [pid:47.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:4.1e-102],MGA_302
sequence07	MetaGeneAnnotator	CDS	16620	17990	.	+	0	ID=MGA_303;product=Trk system potassium transport protein TrkA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545959.1;translation=MFIDLQKMKIVIIGAGEVGFHLAKSLSELDYDISVIDIDPIKCAKANEHLDVSVIQGNGSDLEILKQANVQEADYVMCITNKDETNLISALQSHSLGGKKIVARLRDFDYDQNGNAMFPERFGVDIVIHPEKTLANEIIRLVRHPYADKFYEFEGGKAVLFSKKITYKSTIVGMTIAEFHESCKDFKSLVVSVVRNEKVLIPPSTFKFEPDDSVYFFIKKGNLDKLLNRLGIEESSSKRIMIAGASKIGRLVAKELEKEMSVRLVESNKEKASQVATLMESAMILNADATDIEFLKSENISEIDSYIAVTEDQQLNLLGGIIAKQLKAKNSIIHVTNPDFVRNMSDLGIGSIISKNTTTVNTILKDIRIDHKENVIQMFSTLNMEAIQINAKSNSKAVRLPIANLNLPNGCIIALVNHNGHLVIPSGDHQILDDDSVLIFCNPSMVKEITKIFEQE;locus_tag=LOCUS_2950;note=WP_012545959.1 Trk system potassium transport protein TrkA (Thermodesulfovibrio yellowstonii DSM 11347) [pid:29.9%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:4.6e-62],MGA_303
sequence07	MetaGeneAnnotator	CDS	17990	19420	.	+	0	ID=MGA_304;product=Trk system potassium transporter TrkH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021497.1;translation=MSLRPTFRFLSILIMFLSLSLLIPGLIEYFQTKRVFFFEISFFSILAVLPIWFFTRHAKSLTNKDIFLVIVSSWIVTGVFSSIPFYLSGQFGSFTNALFEAISGVTTTGSTVLTDIESLSKGLLFWRSFIQWIGGLGIIVFTISLLPLIGVSGEKLFNVEFPGPSSQKKIAPRVKDTSRLLIKFYLGFTFAEFTLLLYRLPAFDAICHALTTMPTGGFSTFNTSLNEQDFYVKSIILIFMILGGTNYALHFRAQRYGLTSYFKDREFLYYIFVIAISSASLIFLASLLGMEKDRFIDSTFQAVSILTTTGFTSVNYSEWNLFVGQFILLILMFFGAMGGSTSGGMKIIRLVAIVKYAGMELKRALHDKAIIPIRIGHNLIPDEVIRKTLAFSLFYFLFFFFSTVFFVFLGYNLESAIGISASSIGNIGPSIGEIGAMGSYNTLPILGKYLMMFGMLLGRLEIFAILILFTKTFWRS;locus_tag=LOCUS_2960;note=WP_011021497.1 Trk system potassium transporter TrkH (Methanosarcina acetivorans C2A) [pid:35.7%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:5.5e-82],MGA_304
sequence07	MetaGeneAnnotator	CDS	19447	21198	.	+	0	ID=MGA_305;product=UvrABC system protein C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S280;translation=MPNQPGIYQFFDDNGKIIYIGKAKNLRNRVKSYFLNKAYRTPKEQSLVKRISNLEWIICQDEADAFITEATLIKKHKPKYNIQLKDDKSFPYIKISKEHFPKISLTRRVLKDQAKYFGPYTDVKSMRRLLDVIYKAFPLRNCYIQLSEIDPKTGKNRIQKNGLGIQTITEDQYHEMIQDMILFLKGDTKIIEKKLKNQMQFFSEKKMYEDAARLRDQLKSISNFITGQRKLEADLSNRDVIGYERENKHIVVVILRIREGRIMSREKFSIDSEDSLAEILRTVIINFYMNAAYIPGKIYLPELPEDGTDLTQWLMEKSSAKIELLIPQRGNKFQELRLANRNAKLLLNEWLLNLQKRRDHLPKLLGELQELLSLEKPPRIIEGFDISHLGGTNTVASMVVFKDGKPLKRGYRKFNIHVKQIDDFESMKEVVYRRYKRQIDEGGILPDLILIDGGKGQLSSAVESLTQLNLSIPIIALAKRLEEVFLPNQSEPIIIAKNSPALNLLKQLRDEAHRFAITFQKQKRTKGIAKSIFEDIPGVGTKTVEKIYKRFPDIKEMKDLSDQALAFKLGISIMIARKIKDSF;locus_tag=LOCUS_2970;gene=uvrC;note=Q2S280 UvrABC system protein C (Salinibacter ruber DSM 13855) [pid:39.1%25%2C q_cov:97.8%25%2C s_cov:93.5%25%2C Eval:2.2e-115],MGA_305
sequence07	MetaGeneAnnotator	CDS	21182	22126	.	-	0	ID=MGA_306;product=cystathionine beta-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948636.1;translation=MIYKNVLETIGKTPIVQLNSVGSDLQCNMFVKLEMFNPGGSVKDRTALCMIDCAEKAGKIKPGDTLIEPTSGNTGIGLALAAAVKGYRLIIVMPEKMSMEKELTLKALGAEIVRTPTEAGHDDPNGNYNVAKRMINEIPNSYLLDQWENPCNPLIHYQQTAEEILNDFGNDLHMVVMGIGTGGTISGVGRKLKERIPNIQIIGVDPYGSILGGGTEIKSYLVEGIGYDHFPGTFDPNIVDRFVKVDDKNSFETARRLIKEEGLLVGGSCGSATYGALQAAKSLKKGDNCLVILPDSIRNYMRKFLSDDWLKKNL;locus_tag=LOCUS_2980;EC_number=2.5.1.47;note=WP_010948636.1 cystathionine beta-lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:63.1%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:1.2e-113],MGA_306
sequence07	MetaGeneAnnotator	CDS	22185	22592	.	-	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIKWRPFNNQIDSFDNIIDQFFSDIAVHPRFSLLNTDQYSNYSENDKEYYLTIDVPGMSKDDIDVSYENNRLRISGQRKSSEYDSYQYDKMERIFSVPSNVETEKISAKIENGVLNVVLPKNKTALGRKISIK;locus_tag=LOCUS_2990;note=WP_011404691.1 heat-shock protein (Salinibacter ruber DSM 13855) [pid:34.3%25%2C q_cov:69.6%25%2C s_cov:70.3%25%2C Eval:2.5e-12%2C partial hit],MGA_307
sequence07	MetaGeneAnnotator	CDS	22744	24180	.	+	0	ID=MGA_308;product=peptidase C69;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056233.1;translation=MIDYKKILSQVSSEADWVGIRYVEESQNILTAKKEKLDGIQRNSTKGVMIDVLVNGQFSYFATSFLDDQYIIKCINQAVQNAKRASEFSIYKFDQSTVRQGFTGTYNTKLISSVSDLSFNDIKDLALLGSSTMLKPSSIVHSAATIELIERRTEIFSTSGADIEQKMDIVLVELSATAQNQQDSQTRTNHGMRGHCFQAGAEFIEKYDIETEASQIATQAIELVEADQCPTEVTDLVLAPDQMMLQIHESVGHPLELDRILGDERNFAGSSFVHLEDFGSLQYGSKLMNIVFDPTVDNQLASYNFDDGGMPATKEYLIQDGVLVRGLGGIESQIRSGVPGVSNLRASSWNRIPIDRMANINLEPGQSTRDEIIKSVERGVYMESNRSWSIDDYRNKFQFGCEYGRMIENGQLTKVVKNPNYRGITNPFWRSLSMVGNQDTFEVFGTPNCGKGEPNQVERVGHASPLCKFDQIQVFGGV;locus_tag=LOCUS_3000;note=WP_011056233.1 peptidase C69 (Thermosynechococcus elongatus BP-1) [pid:52.8%25%2C q_cov:99.4%25%2C s_cov:99.0%25%2C Eval:5.0e-139],MGA_308
sequence07	MetaGeneAnnotator	CDS	24185	25525	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056219.1;translation=MKQSIFQSICTSVFSILNENEQLTIYLEGEDSQYFRFNDSKLRQTGIIEDYNVVLSLYHGKKSLQANTTISIDIDFSIQNLTKEIENLRGPLSVIPENQFTRFPKAFSNVITHEKGNLPDREEILKSIMKIISRNLLTGVWTSGKIFRGFCSSNGTHHWFEKDSFIFDYSLIDRKENMVKVLYSGSHWSRVDFETDFDQACDRLQLMNKPKKELQPGKYRVWFEPHAVADFVDMFNWHGAGESYFQNGSSCLLKMRSQNIHLSPKFTLLESFKKNPTASFNSRGEISEEIPLISKGKLVNTLINDKSAVEYNLVSNFAEETNSWGMGEFMRAPYMTEGDLKEEDILKRLDTGIFISNIHYLNWSDALGGRITGLTRYACYWVEKGKLIAPIKTMRFDDSFYNFFGKNLEAVGRKVLARPVIETYDGRNPGSTMCPGVLVNNFELTL;locus_tag=LOCUS_3010;note=WP_011056219.1 hypothetical protein (Thermosynechococcus elongatus BP-1) [pid:36.1%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:4.0e-79],MGA_309
sequence07	Aragorn:1.2.38	tRNA	25561	25635	.	+	.	ID=Aragorn_17;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0170;note=Aragorn_17
sequence07	Aragorn:1.2.38	tRNA	25644	25730	.	+	.	ID=Aragorn_18;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0180;note=Aragorn_18
sequence07	MetaGeneAnnotator	CDS	25777	26193	.	+	0	ID=MGA_310;product=glyoxalase/bleomycin resistance protein/dioxygenase superfamily protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011204789.1;translation=MRPFHLAFPVTDLKKTKDFYTSILNCQLGRSSDQWIDFNLYGHQVVAHLVDNSNHVSANHVDGDEVPASHFGVILELSQWEELKNRLIQYGIQFIIEPKIRFQGEAGEQATMFFLDPCGNALEFKAFKNDNQIFATDE;locus_tag=LOCUS_3020;note=WP_011204789.1 glyoxalase/bleomycin resistance protein/dioxygenase superfamily protein (Burkholderia pseudomallei K96243) [pid:60.3%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:7.2e-44],MGA_310
sequence07	MetaGeneAnnotator	CDS	26186	26887	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P25149;translation=MNNQALEHWTPEIGSSFWAMGLGLSLLFVIAIFFIGSKISSKNREYLLYAMGSYQLIEVSFFQLYRLFTGEYVIATHLPLQLCSISGILAGLVVFYRKQLIFEFLFFYGLAGFIHSILTPEFTVGIPSAVEIFNYYMGHSMLFVVPIWLMRFNGMRLTIHSWWRSFLYLQLIIVIVSQLNAIIGNGANYMYLAKAPLADSVFVVGGASYILVLNLAALLHFIVFYYVALKVFK;locus_tag=LOCUS_3030;gene=ywaF;note=P25149 hypothetical protein (Bacillus subtilis subsp. subtilis str. 168) [pid:23.3%25%2C q_cov:91.0%25%2C s_cov:89.5%25%2C Eval:1.2e-12],MGA_311
sequence08	MetaGeneAnnotator	misc_feature	1	696	.	+	.	ID=MGA_312;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010947994.1:lipoprotein ABC transporter,WP_010947994.1 lipoprotein ABC transporter (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:22.6%25%2C q_cov:84.8%25%2C s_cov:49.9%25%2C Eval:1.0e-11%2C partial hit],MGA_312;locus_tag=LOCUS_3040
sequence08	MetaGeneAnnotator	CDS	696	1355	.	+	0	ID=MGA_313;product=peptide ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003384767.1;translation=MILELQKIEKSFSDGENQLNVLKGINLTVNRGDIVTIKGPSGSGKSTLLNIMGAIDFADSGSIFFNNNKISLGSDLEKFRNENLGFVFQFHHLIPELNVEENVKLPFFVSNTKVDTKSIDELFIFFDLDSRKKSFPNNLSGGEKQRVAIMRSFVKNPSLILADEPTGSLDNKQVINTIELFKKMNSQFQQSIVITTHDERVFNIGTKKFSLNNGVLSKV;locus_tag=LOCUS_3050;note=WP_003384767.1 peptide ABC transporter ATP-binding protein (Clostridium botulinum A str. ATCC 3502) [pid:45.9%25%2C q_cov:99.5%25%2C s_cov:93.5%25%2C Eval:5.0e-45],MGA_313
sequence08	MetaGeneAnnotator	CDS	1457	3361	.	+	0	ID=MGA_314;product=chaperone protein DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KEP3;translation=MGKIIGIDLGTTNSCVAVMEGGEPTVITSTEGGRTTPSVIGFTKDGERLVGEPAKRQAVTNPSNTIYSIKRFMGRTPSEIEQDIKEVPYKVSVEKSKIQVEVAGNKYLPQEISAMVLQKMKQMAEKYLGATVTDAVITVPAYFNDSQRKATKDAGAIAGLNVKRIINEPTAASLAYGFDKKKDEKIAVFDLGGGTFDISILDIMNDEGQSIEVNATNGDGRLGGDDFDQKIVDWLANEFKKAEGIDLRKDPMALQRLKEASENAKKELSSSKQTEINLPFITADSSGPKHLNMTLTRANFENLVSDLIERVVAPCKQALKDAKLTPSDIKEVILVGGSTRIPAIQEKVKEIFGKEPNQSVNPDEVVALGAAIQGGVLSGDVDDVLLLDVTPLTLGIETMGGIATPLIEKNTTIPTQKSQIFSTAADNQPMVEIHVVQGERQLANDNKSLGRFHLDGIPPAPRGTPQIEVSFDLDADGILNVKASDKATGKEQSIRIEAQSGLSDQEIEKMINDAKKNESEDKARKEEIETKNQAEQLVYQTEKQMKDLEEKLSDDDKKELTESLDKLKEANKSSNISDIKNAMDNLNSVWNSKASSMYDASKSSNKNQPENDSGSNKDKDDKKIEDADFEVVDE;locus_tag=LOCUS_3060;gene=dnaK;note=Q8KEP3 chaperone protein DnaK (Chlorobium tepidum TLS) [pid:62.1%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:2.6e-218],MGA_314
sequence08	MetaGeneAnnotator	CDS	3403	4611	.	+	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNVFIKFLKSIFAISISILVFFILSFIALYIYLGKGLTIPIDQSNDYIQKNLDKYGINFNPSSELFLSTKFNEIEVYLSLYDFVLSSDNKESIKAEKLNLSTQFPLISFYNLALDYFSENNSEIHFIFPLIININNAIVDIAALPKSKNDVEIGEKNEELINAKVIVKKSKLYDNELFLGNFDASLGINIFEKNSKISSFSLNVNSGDTFDTSYLLRFFPDVKRLSSINQVVQYDLKIQDSNLNDSIDSRTINGNININHSEMELVKFPAQLKPEVIRNLNISLNIKDSIGSINLVGTVTNPKQRIKLQKEANLQVSGKIILKDLENPELDLFVNGSDIYFAKLDNENLNGVSDLKISITGQETLKLDGDIRIKKSNGFLTPLKDTKLNVTHQLREKNEQK;locus_tag=LOCUS_3070;note=MGA_315
sequence08	MetaGeneAnnotator	CDS	4598	5593	.	+	0	ID=MGA_316;product=magnesium chelatase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787927.1;translation=MNKNDLKNFNKKIEEKSQFIKEIKTQISSIIVGQEDLINKILISVVSNGHILLEGVPGLAKTLTINTFAKLINANFKRIQFTPDMLPADLIGTLIYNQKTGEFNTKKGPIFSNIILADEINRAPSKVQSALLESMQEKQVTIGETTYKLDLPFVVLATQNPIEQEGTYPLPEAQIDRFMMKTIIDYPSYDNEKEIIRRVAKTNLDVEIKPIIKAKQILDSQVIINDIYVDSSIEEYILNLVFATRNPKKYNLGHLKDYITFGGSPRASINMVLASKANAFINGRGFVIPEDVRYIAPDILRHRILVSYEAEAEDISSDSIINEILKEIPVP;locus_tag=LOCUS_3080;note=WP_005787927.1 magnesium chelatase subunit I (Bacteroides fragilis YCH46) [pid:57.6%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:3.3e-109],MGA_316
sequence08	MetaGeneAnnotator	CDS	5596	6462	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761572.1;translation=MSSELLKKVKQIEIRTKNLVNDFFGGDYHSNFKGRGMTFSEVREYQHGDDIRFIDWNVTARSESPYIKIFEEERELTAIIAVDVSSSGLFGSNAKLKRDLYIEIAATLGFSAIKNNDKVGLFLFSDKVEKFIPPKKGKSHILRIITELLNFDFETQKRKTSVKNGLNFLGKISKKKNIIFLLSDFMDSNYWDEFKLLNYNHDLIPIQIFDGFEKNIPNLGLIEIEDLENEKSLWIDTSNQKIRIKYASFLKEQSNQFREQCRKIGVKPIQISTDEDFVKSLKLFFKKR;locus_tag=LOCUS_3090;note=WP_008761572.1 hypothetical protein (Bacteroides thetaiotaomicron VPI-5482) [pid:49.3%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:4.1e-78],MGA_317
sequence08	MetaGeneAnnotator	CDS	6468	7346	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFYLLFFILVLNNCNQSNNVIQIETELNYSDLFIGSVLEHKISLKDIDLFQPDSISINWNDNGLWLVDSSSILVQSHAKQFQNEYVLNHKITFWDTGEFTIPPINLKLINESDSLLFQSDSFKVFIESSIDSTMKKIFPLKSPEEINFPLEKVKIFYLILILALIILFFNFLKSEKSKHLFKRNFYNQSPISDAIDSLNNINIESLSTEEFYLEISNILRKFLENNFYLVSFEMTSEDILSIIENNDLKKILSNIDQSKFGKKEFEDEIKKADLELTKKIIRTLFKTVQIN;locus_tag=LOCUS_3100;note=MGA_318
sequence08	MetaGeneAnnotator	CDS	7355	7918	.	+	0	ID=MGA_319;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q45288;translation=MATTADIKNGSIIIHKDSRMKIVEFQHVKPGKGPAFVRTKLKDIQTGKVIDHTFNSGAKIEFIRVTADVYQYLYNDGKNFIFMDNKTYNQIEVSDVLMGDSYLYIKEGESIELVFDGSEIINMNLPPKVTLKVSETEPGLKGNTATNAMKPAKLETGLEVQVPLFINAGDLIKIDTKDGSYSERVKA;locus_tag=LOCUS_3110;gene=efp;note=Q45288 elongation factor P (Corynebacterium glutamicum ATCC 13032) [pid:51.9%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.9e-50],MGA_319
sequence08	MetaGeneAnnotator	CDS	7920	8378	.	+	0	ID=MGA_320;product=acetyl-CoA carboxylase%2C biotin carboxyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831211.1;translation=MWKDKLKEIIYLLEHSDVNEIEVNFWFKKIKVTKNSTPVYSSIPVQDLSHITEKETQKNSKDNPSKITSDQSLVIVRSPMPGTFYSSPDPESSAFVNVGSKVKAGETLCIVEAMKIMNEIQSDINGEIVEILVQNSQPVEFDSPLFSIKKIN;locus_tag=LOCUS_3120;note=WP_001831211.1 acetyl-CoA carboxylase%2C biotin carboxyl carrier protein (Staphylococcus epidermidis ATCC 12228) [pid:40.4%25%2C q_cov:95.4%25%2C s_cov:97.4%25%2C Eval:1.4e-26],MGA_320
sequence08	MetaGeneAnnotator	CDS	8378	9748	.	+	0	ID=MGA_321;product=acetyl-CoA carboxylase biotin carboxylase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048423.1;translation=MFKKILIANRGEIAIRIIRACKEMNIKTVAVYSKADEFSLHVKFADEAICIGKGPSLESYLNIPRIIAAGEITNADAIHPGYGFLAENAQFSKVCKENGFVFIGPDSEIIELMGNKVNARISAEKANVPIIPGSDKLNEIEDLLEIGRVIQYPLMLKASAGGGGKGMRVVKNEEEAKKFFGVIKNEAEKAFNNPEIYVEKFIQNGRHIEVQILADSYGNIVHFGERDCSVQRNNQKLIEECPSSFVDNDLRKSLTESAINLAKQVNYVGVGTIEYLVDDDKNFYFIEMNTRIQVEHTVTEMVYMVDLVKEQIGVHFGKKISYSQSDIKMKGHSFECRLNAEDPDNNFMPSPLKIESLNFPGGIGVRIDSYIYAGYQIPSYYDSMIGKIIIHSSNRDKAIVKMIRALEETFVEGPKTTLPLLLKIFKNNKFKSGDFNINFLKNFLEENKEKLNEPSK;locus_tag=LOCUS_3130;gene=accC;EC_number=6.4.1.2;note=WP_012048423.1 acetyl-CoA carboxylase biotin carboxylase subunit (Clostridium botulinum A str. ATCC 3502) [pid:55.3%25%2C q_cov:95.4%25%2C s_cov:97.3%25%2C Eval:7.9e-139],MGA_321
sequence08	MetaGeneAnnotator	CDS	9732	10106	.	+	0	ID=MGA_322;product=glycine cleavage system protein GcvH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000290491.1;translation=MNHPNDLKYTKEHEWVKIQNNSVTVGITDFAQGELGDIIFIELPKEGESFNAGEIFGTIEAVKTVSDLYMPLSGKIIEVNTSINDNPEFVNEDPYEKGWMIKIELSSDDSSLLLDSESYINLIQ;locus_tag=LOCUS_3140;gene=gcvH;note=WP_000290491.1 glycine cleavage system protein GcvH (Staphylococcus aureus subsp. aureus N315) [pid:55.4%25%2C q_cov:96.8%25%2C s_cov:96.0%25%2C Eval:1.6e-38],MGA_322
sequence08	MetaGeneAnnotator	CDS	10108	11016	.	+	0	ID=MGA_323;product=tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WTL7;translation=MLPHIDAFNKILKLEKNFSKNTIASYLSDLKALETFLVKKNIDSKTAFQSDEILKEYFRSLSQENLSSRTIKRKFSSLSSYFNFLMEKKKIGKNPLSSVFTPKLDKKLPSVLTLDEIKLIFKACEDHENELLGLRDRCMFELLYSAGLRVTEICDLTMDNILFDEKLIRFFGKGDKERIIPLTYYALEWLNKYLFQTRKILSGRKSYNSDFVFLSNNGKKMTRAAIWQIVKKYIYQLNIKKNVSPHTFRHSFATHLIDGGANLVVVQQLLGHSDISTTEIYTHLSRDYIDSEYLKAFKKNSN;locus_tag=LOCUS_3150;gene=xerD;note=Q1WTL7 tyrosine recombinase XerD (Lactobacillus salivarius UCC118) [pid:39.6%25%2C q_cov:94.4%25%2C s_cov:94.3%25%2C Eval:2.8e-56],MGA_323
sequence08	MetaGeneAnnotator	CDS	11028	11657	.	+	0	ID=MGA_324;product=peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392875.1;translation=MGIISLSLQEQIILIPTILFALTFHEYAHARVAYLLGDSTAYYQNRMNLNPLNHIDPFGFLALYFLGFGWAKPVPVYARNLKNIRNDMLLIAMAGPASNFLLAIIGAIIFRLNTYIYISDLLFDPLIRFIQINILLAIFNLIPLHPLDGSRILPQFIKNPRTLYKIELYGPRILMGLIILNLIGIPILSLIIFYPLSVIFFFLTGIPLF;locus_tag=LOCUS_3160;note=WP_011392875.1 peptidase (Moorella thermoacetica ATCC 39073) [pid:42.9%25%2C q_cov:78.5%25%2C s_cov:80.4%25%2C Eval:4.5e-32],MGA_324
sequence08	MetaGeneAnnotator	CDS	11654	12562	.	+	0	ID=MGA_325;product=tRNA dimethylallyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q812Y4;translation=MKIFSIFGPTASGKTNLSIELAKIVNGEIIGVDSRQIFKNIAIGTAQPNAYQLSEVKHYLVGELNLDQKISAGKYMKKVDEAISTIIDKNKTPILCGGTGLYLKTMKDGIFSGSKTNLSIRKKLEDKYDSGKMFEMHEELQKIDPIYAEKVHVNNRQRLIRALEVFKITGKPISENFQSVNKKSIYSENLETVFLKNSLVNLEKSISQRIDLMFDYGIVEEVLKIKKMDLDISHINYIGFKEVCDLIDEKISLNEAKELIYFRTRQYAKRQLKWFNNHQFDQVIDLETIKHNRIVELLTGKT;locus_tag=LOCUS_3170;gene=miaA;EC_number=2.5.1.75;note=Q812Y4 tRNA dimethylallyltransferase (Bacillus cereus ATCC 14579) [pid:35.6%25%2C q_cov:99.3%25%2C s_cov:95.0%25%2C Eval:9.0e-47],MGA_325
sequence08	MetaGeneAnnotator	CDS	12588	13508	.	+	0	ID=MGA_326;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H0I8;translation=MLKSKHLIGIENFPTTDLIKIIDTSFYFKKILISDERKTDLLKGKTLVNMFFENSTRTKISFTLAQKRLGADSINFTSSTSSVSKGESLKDTILNIASMQIDGAVIRHSHPGAALRLSEYIDGSVINAGDGSHEHPTQAILDMVSLKEKFGRIDGLKVGIVGDILNSRVARSNIFALKKLGAEVIVCGPSTLLPSEAKRLNINFSYNLDEVLNWCDAIIALRIQMERMHFGRLSSKREYYSKFGLSFERINRIKKDIVIMHPGPMNRGVEIDSKVADSENAIILDQVLNGEASRMSILYLLLGDNN;locus_tag=LOCUS_3180;gene=pyrB;EC_number=2.1.3.2;note=A6H0I8 aspartate carbamoyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:51.3%25%2C q_cov:98.0%25%2C s_cov:97.4%25%2C Eval:2.1e-83],MGA_326
sequence08	MetaGeneAnnotator	CDS	13510	14808	.	+	0	ID=MGA_327;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YLE1;translation=MITSKNSKRVLLKNGLIIDPLNNKEFFSDILIKNGKIDSIKKSIKTENDYLVIDCKGLVITHGFCDIHVHFREPGREDKENLESGSYAAIAGGFTQVCTMPNTNPIIDSPESIYFIVSRSKDLPIDIFPIGAISKNQEGEKLTEMLLMKDNGAIAFSDDGNPIQNSQFMKLALTYSKMIDTPIINHAEDVYLRNEGVMNAGSNSNNLGLRGNPNSAEAIMVYRDLLLASQLKSKIHIPHVSTKESVDLIKNFKKGNSFISAEVTPHHIYFDDSSINSSNYNTNLKVAPPIRSKKDCKALIEGLKNGTIDCIATDHAPHTIEEKETTFNDAAFGMIGLESCFAAVNKILVKKNKMSLLTLIQKLSTNPRKIMGIEADLFKEGSSAQITILDPDLKWTFSLDSVYSKSINSPFLNQELIGKVKFVLSKNRIFYL;locus_tag=LOCUS_3190;gene=pyrC;EC_number=3.5.2.3;note=B5YLE1 dihydroorotase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:42.5%25%2C q_cov:97.5%25%2C s_cov:98.4%25%2C Eval:3.0e-95],MGA_327
sequence08	MetaGeneAnnotator	CDS	14885	15322	.	+	0	ID=MGA_328;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q728T4;translation=MRKITKTVSINEINTTWWLIDAEDKVLGRIASEVAQILRGKHRPNYSPNMYMGDAVVVINSDKIRLTGDKINSKKYFRHSGYPGGAKITKLSDLMKHNSDKVLTDAIVGMLPKNKLGREISKHLRVYRDNNHNQGAQKPTQWSSN;locus_tag=LOCUS_3200;gene=rplM;note=Q728T4 50S ribosomal protein L13 (Desulfovibrio vulgaris str. Hildenborough) [pid:50.0%25%2C q_cov:88.3%25%2C s_cov:88.9%25%2C Eval:9.2e-35],MGA_328
sequence08	MetaGeneAnnotator	CDS	15322	15717	.	+	0	ID=MGA_329;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGH8;translation=MNNNFYNGVGRRKSSVARVYLSDGQGTHTVNKNSNIKEYLKRDSLVIHALEPLTVLNLNDKIDLKINVSGGGLTGQAGAIRLGIARALIELNEDFKLQLRNRGLLTRDSRVVERKKYGQPGARKKFQFSKR;locus_tag=LOCUS_3210;gene=rplI1;note=B5YGH8 30S ribosomal protein S9 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:61.5%25%2C q_cov:93.1%25%2C s_cov:94.5%25%2C Eval:5.7e-33],MGA_329
sequence08	MetaGeneAnnotator	CDS	15724	16488	.	+	0	ID=MGA_330;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E3D9Z5;translation=MHKITKDDLINTGAHFGHITSKTNPNFKDFVLSQKNGIDIINLDYTLKSLDKALSFIVEIVQNNGDVLFVGTKKHAKDVIQQEADRCGMYYVVERWLGGTLTNFSTIRKSIKRLHTLEKEGSSIYDDLTKKEILKLNREKLKLSDQHRGIKDMNRLPNVIVVVDGKTEHIALEEAKKLEIPVVCIVDSNTDPSLCSFPIPANDDSIRTIQLLISEIVNAIISVGKPEETKIDDSSVNSKDLNDSTNDEVKGASQ;locus_tag=LOCUS_3220;gene=rpsB;note=E3D9Z5 30S ribosomal protein S2 (Gardnerella vaginalis ATCC 14019) [pid:52.3%25%2C q_cov:86.6%25%2C s_cov:83.5%25%2C Eval:7.3e-57],MGA_330
sequence08	MetaGeneAnnotator	CDS	16485	17084	.	+	0	ID=MGA_331;product=elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGE0;translation=MSIDAKLVRDLREKTGAGMMDCKKALVESNGDINLALDFLRKSGIAKAEKKSSRDAKEGIIYSYIHNGNKLGVMLELGCETDFVAKTDGFIDLANNIAMQIAATNPLAINEENIDPSIIAKEKEIYTDQAKATGKPDNVVDKIVEGKLNKFVEDNCLMQQTFIKNPEQNITQLLQESVAKIGENITINRFVRFAIGESS;locus_tag=LOCUS_3230;gene=tsf;note=B5YGE0 elongation factor Ts (Thermodesulfovibrio yellowstonii DSM 11347) [pid:60.1%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:9.2e-61],MGA_331
sequence08	MetaGeneAnnotator	CDS	17089	17646	.	+	0	ID=MGA_332;product=ribosome-recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005810666.1;translation=MFAQYIDSTKVKMQQAVDFVTAELSKIRTGRANPDMLNKISVNFYDSEFPINQLANISVLDAITLSIQPFDKSSMATIEKAIRNSDLGLNPSNNGSSIIIPFPPLSMERRQEFVKIASKQVEEGRVSIRNIRRDIIQVVKKIDTEEKLPEDEVKRFMDDVQSLTDEFITKLNDIFSIKEKEIIEK;locus_tag=LOCUS_3240;note=WP_005810666.1 ribosome-recycling factor (Desulfitobacterium hafniense Y51) [pid:48.3%25%2C q_cov:94.1%25%2C s_cov:94.1%25%2C Eval:1.5e-40],MGA_332
sequence08	MetaGeneAnnotator	CDS	17656	20124	.	-	0	ID=MGA_333;product=ribonucleotide-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583735.1;translation=MQILPICVIAKKLLKKFNRGILYKKMAAEAIELNFPTEEQKSKVDKDLRDTLLNINLSQNNQITDHEESCPSQFTSEEYYKEDDLGKSVLEMKYLAPGEKSPWDLWKRQAKALASVEKTKALREKWEVEFFDALKNFKFVPGGRIMHGAGREDITTSLNNCYVVGIKNDSIKSIYDCVVKEALTYKYGGGCGHDLSILRPGGDEILGTGGNSCGPVGFMNLFSENTNTIAQHGRRGANMQTLRIDHPDIEKFIEIKTGNIDMVKYSNISVLLTDEFMQAVKSNSNFELKWGGQVYKTVNANDLWMKIINHAHSSAEPGLIFWDTMKKYHNAEYCSPLLSTNPCAEQPLPDGGCCNLGALNLERFVSKDGSFNFDEFTTVTEVATRFLDNVIDYNIDRHALEEQKQNAKNDRRVGLGILGLGDMFVKMGVKYDSQEALDIIEQIMRVHRDAAYRTSIELSREKGQFPNFDWDGYSQSKFVNELPKDIKENIQKFGIRNCTLTTVAPTGSGAIVARVTSGIEPIFATSYQRKVKKNSSLGKEFDIFTVYHPVIKEIFGSDTNLPQYVVTAHNVDPYFRVKMQGVVQKYIDTSISSTVNLSEDTTVKTVADIYMTAYDTNLKGITVYREGSREGILVTNEKSKENKKDSSKETTETSSKKRTARNRPNITQGTTLRMRTGDGTLYVTVNEDDNGLCEVFTAIGKAGGTVAAQTEAISRLISLALRSGIDPKSIINQLKGISGPNPTWENGQLILSTPDAIGRALESFLNRNDNSSSIPKNSTSKFEMAETNSQTKGRYCAECESYSVVNEGGCDTCKDCGWSKCQ;locus_tag=LOCUS_3250;note=WP_012583735.1 ribonucleotide-diphosphate reductase subunit alpha (Dictyoglomus turgidum DSM 6724) [pid:40.0%25%2C q_cov:89.2%25%2C s_cov:98.3%25%2C Eval:2.6e-136],MGA_333
sequence08	MetaGeneAnnotator	CDS	20282	23803	.	+	0	ID=MGA_334;product=indolepyruvate ferredoxin oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013227656.1;translation=MSEYNQNQNFSLDDKYTLLEGRIILSGIQALVRLLLDQNRADLIKGLNTGTLVSGYRGSPVGMLDINLVKNKKLLDQHNINFIPGVNEDLGATLIYGSQMAGMVSNVKYDGVLGMWYGKAPGVDRSGDIFRHANFLGVSKNGGVIAVAGDDPSCKSSTLPSQSEPALFDAMMPIFYPGNVQEILDLGRYAYEMSRYSGLWSGFKIVTDIADAFGSAIVHPERINITIPDFIYNNMPWKHTQNAKLVGHHSLPTEKEIHLGRIKAAKKFLEVNPINKITMDSENAKIGIISAGKTYYDIVEALDTLGWDQAFLNEKGIRILKLGVTFPLDSKLIERFSSGLDEIIVIEEKRSFIEMLLKEEIYNYRSKPLIVGKTDENNQDLFPGYGELTADDIAKILFERYHSRFGIESSNEKIRILNEIDHRDAIESLTARSMYYCSGCPHNTSTVKLPDGDSAFGGIGCHLMAMFVDDGKAFGTTHMGGEGAQWVGMEPFVNKEHMFQNIGDGTFFHSGSLALRQAIAAKSHITYKILYNRAVAMTGAQDPDGGLDLPELTKYLKSQGVLKTIITSDDPDTYKDIPKSRWDKDIEIMHREDIVEAQKKLKAIKGVTVLIHDQTCAANLRRLRKRGLVHEPKKRIFINEAVCEGCGDCGVKSNCLSVQPIKTEYGRKTQIDQPSCNKDYSCVDGNCPSFISIIPSEKDDKRNLPGLDFDSKSLPTPNKNEKDISNIFMLGIGGTGVVTVNQIISTAAFLENKKVISLDQTGLSQKGGSVVSHLKILKNSKKDLSSRVGNGEADAYLVFDLLTGFNPKNLAKLNPKRSISVISASEIPTGDMVRNTTSEYPDSQQMISTISNYSKSKTLLNATELSEHFFGSNMQANFIVVGAAFQSGCIPLDASSIEEAIELNGVSVKANKKAFLIGRKVAADPIWIESLKLYRSGDLSSKPIISNEAKSLIDSLNPDKDLQRILEHRVPELIAYQNLSYAKEYINFIQVIHNEEKQSQNSSELTQNVAKYLFKLMAVKDEYEVARLSLKPELEAAIQSEFGSSAKINFMLHPPIMKKLENIPLLNKLPGVKSKLSLGKWFKVFFVLLKNLKFLRGTKLDFMAWFSADVRKADIEVLKHYKTVLTENLPSIKNGGYEKMIKFSALPDVIRGYEEVRLETLKTYYNNSKQIIG;locus_tag=LOCUS_3260;note=WP_013227656.1 indolepyruvate ferredoxin oxidoreductase (Amycolatopsis mediterranei U32) [pid:42.8%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:3.6e-264],MGA_334
sequence09	MetaGeneAnnotator	CDS	1045	2667	.	-	0	ID=MGA_337;product=1-pyrroline-5-carboxylate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962584.1;translation=MDKDFRAVNEPIIDFEPGSNHRKLLLKEIERQSSRIKEIPIIINGKEIKTGNLQVCSKPHDHQHILGHYHEAGEKEIQMAIDSSLEAWKYWSNTSLEYRSKIFKKVADLIAGPYRYKINAAAMLDIGKSVFQAEVDASCELIDFLNFNIEFAHKMQTSFTPISPEGMSNELEFRPLEGFVFAIAPFNFFSIGGNLAISPAIMGNTVLWKPAPSAVYSSYCIMELYKEAGLPDGVINFIPGDGPKIGNQVLKHPELAGIHFTGSTKTFKYLWKKVSDNLDTYRNYPKIVGETGGKDFCIAHNSANIQGLVTAMIRGAFEYQGQKCSAMSRAYLPSSKWSIIKEKLISQAQTIDIGPPEDFKNFVNAVIDEPAFDRIATYLDYAKSSDDCEILLGGNCDKSKGFFVDPTIILTKNPHFKTLEEEIFGPVLTIYVYDDKNWDETLRLIDTTSPYALTGCVFSEDRDIVDEVRSKLRFSAGNFYINDKPTGAVVGQQPFGGSRASGTNDKGGSMLNLLRWTSPRTIKETFEPPQDYRYPFMDNE;locus_tag=LOCUS_3270;gene=pruA;EC_number=1.5.1.12;note=WP_011962584.1 1-pyrroline-5-carboxylate dehydrogenase (Flavobacterium psychrophilum JIP02/86) [pid:55.3%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:6.3e-178],MGA_337
sequence09	MetaGeneAnnotator	CDS	2688	3665	.	-	0	ID=MGA_338;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q181F5;translation=MKNFREKKIKIGNLQIDFPFFLAPMAGVTDYAYRVIAKEFGAGVVYSEFVSAHGIIRENEKTLNMIKFSEFERPIGIQIFGDTPEVMESAARLVFEKFNPDLIDINYGCPVPKVTKKGAGSAALKDLCLMEDISEAVVKAVPSIPVTVKMRAGWNLNNIVSTQAGINLEKVGIKAITLHPRTTVQMYKGSANWELIKELKENVTIPVIGNGDIKNIEDIEKMFLMTKCDGIMIGRAALGNPWFFAQIKKFLNDQDYDKISLEERLDICLKHLDLLVQTHGEKIGANNMKKHFSWYFKGFEEASSFRKKFVLANNYSEMKDILSKF;locus_tag=LOCUS_3280;gene=dusB;EC_number=1.3.1.-;note=Q181F5 tRNA-dihydrouridine synthase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:42.1%25%2C q_cov:95.4%25%2C s_cov:96.0%25%2C Eval:7.7e-71],MGA_338
sequence09	MetaGeneAnnotator	CDS	3745	3981	.	+	0	ID=MGA_339;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HTN8;translation=MGKICEVTGKRAMFGNNVSHAHNKTRRRFDVNLQKKTFWVESLNKKITLNVSAKGLRVIDKKGIDSVIKELIADGRKF;locus_tag=LOCUS_3290;gene=rpmB;note=Q9HTN8 50S ribosomal protein L28 (Pseudomonas aeruginosa PAO1) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-21],MGA_339
sequence09	MetaGeneAnnotator	CDS	3978	5429	.	-	0	ID=MGA_340;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL60;translation=MNIINQINQEWDIVIGLEVHVQLQTRRKIFGHSKYIYNSPPNSLVCPPSFGLPGSLPTINQKAIQDAIKFGLTVQGEINQNLIFSRKHYFYPDLAKGYQISQFTEPIISGGYVPIWWEDKLMNIYLQRAHLEEDTAKSTHINKDSFSLIDFNRSGASLIEIVTNPCIRHPEQAKLFVQRIRQIVNFLDISNGKMEEGNLRCDANISLKKKNSQNLGIKTEIKNINSFRNVQKSLESEIIRQHKILCNGKKVKQVTLTWNSSKNVAEIMREKEDSHDYRYFPDPDLPPVIIDSKFINSIAKDMIKTPMELEVAWKKNYKFSTEDVTMLTSSKLVSEYFQLLLDEGVNPGDGLKWISGEIFRLFNEVNIEFDNRISPKDLKRIILLVSENKITNNDAKEILKCLFDSNSELNEILEKGSYYINKNKDLTLEAINLVFNQFPQELDRLKSGEDKLYGFFVGMTVKSSKEKLDPKIILQEIKKIIED;locus_tag=LOCUS_3300;gene=gatB;EC_number=6.3.5.-;note=B5YL60 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B (Thermodesulfovibrio yellowstonii DSM 11347) [pid:41.5%25%2C q_cov:95.4%25%2C s_cov:97.1%25%2C Eval:5.4e-101],MGA_340
sequence09	MetaGeneAnnotator	CDS	5426	7684	.	-	0	ID=MGA_341;product=aconitate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000863308.1;translation=MNLIDLTNKTYSKYISSLNNARSFFGRPLTYTEKILFSHLTYDLNEIPVRQKTFVNISPDRVAMQDATAQMALLQFMNAGMKTTAVPTTVHCDHLITAIKGANNDLENALITNKEVYDFLLSVCKKYGIGFWKPGAGIIHQTVLENYAFPGSLMIGTDSHTPNAGGLGMLAIGVGGADAVDVMTDSPWEVNWPGIIGVKLTGELKEWVSPKDIILKLAGILTVKGGTGKIIEYFGDGTKTISCTGKATITNMGAEVGATTSIFPYDKSMERYLLATSRSDIAFAANKIAHELQVDDEVNKSPEKFFDQVIEINLSKLEPHVVGPYSPDLSRKISDMPEAIKENGYENNLKAGLIGSCTNSSYEDIEKAAHIAKQALNSGLKTKSEFYITPGSNQIKATMERDGYTEIFEKIGGKVLANACGPCIGQWKRSDISEGEKNSIITSFNRNFAKRNDGNAATESFVASPEIVTALAIAGKLDFNPITDTIPLENGEEFKFNPPLGSELPEAGFVELSSDDFISSKSDDNLTIEIDPKSQRLQNLQPFQAWDGKNYQSLKILLKARGKCTTDHVSPAGPWLRFRGHLENISQNMYSGADNEFTNSIGEAINLEKEKTESIYDVANYYKKNNIDWMVVADENYGEGSSREHAAMEPRFMGCKLILAKSFARIAQTNLKKQGIIPLMFKNKNDYDLIGAYDEVSTKNLEEFSAENNIVLIFKKPDGQIYEIETLHSFSSNQIGWFKAGSALNQISKNIS;locus_tag=LOCUS_3310;gene=acn;EC_number=4.2.1.3;note=WP_000863308.1 aconitate hydratase (Leptospira interrogans serovar Lai str. 56601) [pid:58.3%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:4.1e-250],MGA_341
sequence09	MetaGeneAnnotator	CDS	7705	8271	.	+	0	ID=MGA_342;product=Maf-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X1P2;translation=MPIILASSSPRRKKILTKLGYKFKVVKPQIDESNSLRLKPIDYVEYISKLKARKVFDSYNQFDVIAADTIIEFQNKIIGKPKDKNNAKEIFLSLSNKSHNVVTSLTFKNIEIEKTITDSTKITFKNLSDDLIDYYIQNFNVLDKAGGYNIDQSFFKENFVKNYEGCFENVTGFPMTMFFEKKIDKFIK;locus_tag=LOCUS_3320;note=Q9X1P2 Maf-like protein (Thermotoga maritima MSB8) [pid:38.5%25%2C q_cov:98.4%25%2C s_cov:89.7%25%2C Eval:4.1e-28],MGA_342
sequence09	MetaGeneAnnotator	CDS	8268	9101	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFYKKYQSIRKEKGLTIDDISNHTKIDGKYFILIEKGKFAEISPVYLKLFFKAYVNFLNLDEKECLNDLNDFMNSPSTNFDISNKKKNNIYEYKNSTQALNFLNSQNLFNRNIFLGVALILLISLFPLFLSSENSESSDYESQLRLSSQSLSQNYQLRFNEISSIEDLKLPVKIRIISKDENYISHIKFSNLLEENSEYFITQSKINKKDNTLLFSWDEADSLLFLIANPSQLEFSMFSDDYFNDLSDSILNDFPVKVLLEKNPFSITISKYIPNR;locus_tag=LOCUS_3330;note=MGA_343
sequence09	MetaGeneAnnotator	CDS	9196	9651	.	+	0	ID=MGA_344;product=transcriptional regulator MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I1T2;translation=MANQYTFIGQYSYQIDSKNRINLPSDFRKQFKSSEKNTFVITQGLDQSLWIYPINEWKKIENELSSLSSISKINRSFLRNYLRNAKIISFDKQGRFVLPENLLNFAKISNNVSIIGVLNRIEIWNPEVLKKIDNEKIDHLLLDSLAEKVKI;locus_tag=LOCUS_3340;gene=mraZ;note=A5I1T2 transcriptional regulator MraZ (Clostridium botulinum A str. ATCC 3502) [pid:39.2%25%2C q_cov:94.7%25%2C s_cov:95.8%25%2C Eval:1.5e-25],MGA_344
sequence09	MetaGeneAnnotator	CDS	9651	10544	.	+	0	ID=MGA_345;product=ribosomal RNA small subunit methyltransferase H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I1T3;translation=MKSILPTNMNHIPVMLEETLENLNIKKAKIFFDGTVGFGGHTEAAAKINDECFIIGVDRDLEALKFCEKNLNNLNISLHHNSYENIDLILDQEKLKDVHAILLDLGLSSYQLDNSRRGFSYRDNNALDMRFDSNSTSITASEIISNYNINELTAIFKEFGEERHSFLIAKKIKERVDENQINSELIVEVINSVTPFKYRKKTYSRIFQALRIETNNELKHLENFLAKFINFLTPGGRVVIISYHSIEDRLVKQSFKALHRDGKLKIITKKPLIPSDNEISINSRSRSAKMRIGEKIG;locus_tag=LOCUS_3350;gene=rsmH;EC_number=2.1.1.199;note=A5I1T3 ribosomal RNA small subunit methyltransferase H (Clostridium botulinum A str. ATCC 3502) [pid:41.2%25%2C q_cov:96.3%25%2C s_cov:98.7%25%2C Eval:3.3e-54],MGA_345
sequence09	MetaGeneAnnotator	CDS	10537	10839	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRVKNRIYQSRKENIKWIVMLTITIITLVVYLYSFIEIDKAHSNLVFKKKTLVQLEDNLNKEIAALELLKRSDNISKRAQKIGMIHSKPEKIIIKIND;locus_tag=LOCUS_3360;note=MGA_346
sequence09	MetaGeneAnnotator	CDS	10832	12754	.	+	0	ID=MGA_347;product=stage V sporulation protein D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545621.1;translation=MTKNYTKLKNRIILVTLGFLFTWVLFAVKLFSIQVINQSENIQGIRTEVLKGKRGNFLDSQGNYLTQNLFYYDIDIFPKKINDFNNILFDLSECTGTDIKIYFSKIDNSRNSITLEKKSEKNCEFLQAKYPSSLSIKRNYKRFYPDENLFGQIIGFTDIDDNGISGLEYELNSKISPEKIQNAYKNNGLGKRILDPSFPIREPDSGLDIKLSLNREYQAILREELLNQIEKVEAKSGMGIIINPQNGKILAMLSVPDFNPNNPSNYDLSYHRNRIVQDMIEPGSTLKIVTISSALKNDKKSSDEYNVEGPYNFHNIKMIEDSEPYSILNIKEILGYSSNIGTIKIAEELGKDKIYNQLTDFGFGSKSGIENVNEASGFVRKTKDWTLSSMYSIPMGYEISATPLQLAMAYSSIANGGYLLKPILVDEILKNDEIIFKSKKDIKRRILSNYESKELIEMLSFTVQEGSGKKAKISGWNVAGKTGTSKKLIDGKYSESEFISSFIGFLPAENPQLLALIIIEGAESKKNYHWGSIAAAPVFESVIKRVINIDPLSIEIENDELRKKELNKPIMIQKNIEKKPQELVSMPNLIGKNIMEAFDILRKNEIKGQISGSGLVVYQSISAGEKIEKNSICIIKASTE;locus_tag=LOCUS_3370;note=WP_012545621.1 stage V sporulation protein D (Thermodesulfovibrio yellowstonii DSM 11347) [pid:31.7%25%2C q_cov:88.6%25%2C s_cov:99.8%25%2C Eval:3.2e-75],MGA_347
sequence09	MetaGeneAnnotator	CDS	12766	13959	.	+	0	ID=MGA_348;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y5M5;translation=MLFEFDNNFSEQKAKIKVVGVGGAGGNAINRMISSGMEGVEFIAINTDAQDLESNPSEIKVQIGKELTKGLGAGAKPEIGREAILQDKEKVSSYLAGADMVFVTAGMGGGTGTGAAPVVAKICKDLGILTVCIVTLPFGFEGPLKMETAMKGVRSIRKFCDTLIVIPNQKLLSIIDYNTTLEDAFSESDLILLNAAQSISDLIHKQGNINTDFADVKTVMSGQGEAILGTGIAKGEERAVLAAQQAISSPLLDNQSIAGAKSVLLNITASKNLKMREVESATQLIYEEAGPSVKVIFGCIIDEKMGEEMKVTVIATGLEKKDKLERSFSDNESIFDEEDDFIETSRNLVHMKSVNSIELADDEEEVEEENDGPTLIFDDFDQTADYDVPAYLRKKHI;locus_tag=LOCUS_3380;gene=ftsZ;note=Q8Y5M5 cell division protein FtsZ (Listeria monocytogenes EGD-e) [pid:44.0%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:7.7e-87],MGA_348
sequence09	MetaGeneAnnotator	CDS	13959	15398	.	+	0	ID=MGA_349;product=UDP-N-acetylmuramoylalanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H197;translation=MDLKGKNVGVLGLGVSGFWSAKLAKSLGANVFLSSIDKNELFATELANLEIETEFGNHSERILSCELVIKSPGISNQASIIKSIKSKKIEVLGEMEFAYQCSDIKIIAVTGTNGKTTVVSILGDFLRNHFNVLVGGNIGVPFSQLVLENKLFEKNNYDFAILEVSSFQSDDFKLFKPNIALILNCKEDHLDIHKTFNEYRDAKFKLFKNMNKNDYAIYNSFENSIIDLFQNLAEQTNVLPYSSIKGKSIYYIKDSLIVKDNEILKSNFNFLETSSFTFEKRQLILQSRNDVENFIAISTICLILKISEKKIFNYLKKFQGLEHRFEIFKVVNQGNQKITFINDSKSTNGLSLQSALSNCFDIQLENICLVMGGRSKGIDYSEYFYFPLGRDHIRVFAYGEAANEIKENLLSSVNDKKQFPKVEIFELFSDAVKKAIEVAKGLKNGAVLLSPACSSFDQFKNYSERGQKFKMIVREQYEY;locus_tag=LOCUS_3390;gene=murD;EC_number=6.3.2.9;note=A6H197 UDP-N-acetylmuramoylalanine--D-glutamate ligase (Flavobacterium psychrophilum JIP02/86) [pid:32.9%25%2C q_cov:97.1%25%2C s_cov:98.6%25%2C Eval:1.3e-54],MGA_349
sequence09	MetaGeneAnnotator	CDS	15388	16515	.	+	0	ID=MGA_350;product=stage V sporulation protein E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110343.1;translation=MNIKKLNQDYYLLGSIIFLIIFGLVMLFSASWVKSLEVTNGESRSYFFSSQLLKFLPALMIFIFFSFFNYRKLQKIAILSLITTFILLLYTKLQGCDLDSCRWLSIGPISFQTSDLARFSIILFLADYIDKNQKKMINFDKGILIPLLWILPSCILVLLQPDNSTTLIIMSIAIIMLFIGGASFPQILTISILGISSVGFMLLNKGNYALSRITSFFNESSVVNYQSDQAIIGLQQGGFWGLGVGKSVQKYNYLPETHTDFIFAIIGEELGFFWGMMLILAYAFILIRSVLIAKRSNDIFGIMLSLGFGISITIYALINIGVVIGLLPVTGVPLPFISYGGSSFLINILMIAILLNISKSKREFKLKNWRLKVNA;locus_tag=LOCUS_3400;note=WP_011110343.1 stage V sporulation protein E (Bacillus cereus ATCC 14579) [pid:35.2%25%2C q_cov:91.7%25%2C s_cov:94.8%25%2C Eval:7.2e-55],MGA_350
sequence09	MetaGeneAnnotator	CDS	16508	17593	.	+	0	ID=MGA_351;product=UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H195;translation=MHKTTIFFCGGGTGGHFFPLIEIKRGLENTLKNSQFFYFGSLRGIEKTKAFKDFDNSFMLLKIYGFKRKINLINILKNLFLIPLVLVGVCKVFMKFIEQNPKLLIATGGYASLIPLIVAKMTFTPYYIQEQNSYPGIVTRLFHKGAKKVFLGFENAEKFLQSSLNTLVTGNPTRFKNHNIFQKKESSLKTLMIFGGSQGSQNINLTIEEMINKNAFKNFQVFWIVGKNNFNKFEKYNSSSIKVYPFVDNIEEFYFKTDLIISRAGAMTVSEIIDFQLPSILIPLPSAAENHQYFNAKFLEERNCSMIINEENLNSVILENQINAIFSNERIIKSMKNNFSLLNKRNSIKLIIDTLIEDINA;locus_tag=LOCUS_3410;gene=murG;EC_number=2.4.1.227;note=A6H195 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase (Flavobacterium psychrophilum JIP02/86) [pid:30.9%25%2C q_cov:96.4%25%2C s_cov:95.6%25%2C Eval:5.2e-39],MGA_351
sequence09	MetaGeneAnnotator	CDS	17586	18962	.	+	0	ID=MGA_352;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YFT3;translation=MLSHLKKIHFIGIGGIGMSGIAELLHKKGFIISGSDISNNSNIERLQKMNIQITTEHLEKNIAGKDLVVYSDAIPFDNCELLTANKQGILCFSRAKMLSEISKMSKATIAISGTHGKTTTTSMIGTIVKNENLNPTVIVGGVVKSFQTNTLLGSGDTFIVEADEYNRTFLHLSPSISVINNIDFEHIDTYQNLEDLKEAFVEFANSTQFHGIVAICSDSENAKSIIPKIDKTIITYGIHDKNADFRAEKIFQKNGKVSFEAIFRNNKIKVRLNIPGEHNILNALAALVVCDFMGLNLEHITKSLNEFSGVNRRFDFHRNENQLMIIDDYAHHPVEVKFVIDTIKKNWNRRLITIFQPHLFSRTKQFYKDFAKALKSSDVVLITEIFASREKLDKSVTSKLIVDEMKKIEHNNVQFVEYDNVKSEVKKLYRSGDIILTAGAGNIWRKAIELNQFLIKND;locus_tag=LOCUS_3420;gene=murC;EC_number=6.3.2.8;note=B5YFT3 UDP-N-acetylmuramate--L-alanine ligase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:39.4%25%2C q_cov:94.8%25%2C s_cov:95.8%25%2C Eval:1.3e-96],MGA_352
sequence09	MetaGeneAnnotator	CDS	18955	19857	.	+	0	ID=MGA_353;product=UDP-N-acetylenolpyruvoylglucosamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y776;translation=MISINKELQKISGLIVKKNEPMNKYTTYGIGGKAEFFVIPKSKQSLLEVISLLKKNKLKYFILGSGSNLLVSDKGFDGVVISIKKSLEAIRIENSKLYVECGAMLGTVVKECIKNNLSGIENLIGVPGTLGGALVMNAGAWGGEISDKLESVEIIDDKNEVKILQKKEIDFSYRLSSFSNNEFLVSATFNLEKKDKTEIEKKYELARQGRKNSQPTNVRSAGSVFKNPPDNSAGKLIELCGLKGYRIGGAVISEKHANFFINEEGSSASDMMNLIKYAQKEVFEKFNIELETEVKFLGFD;locus_tag=LOCUS_3430;gene=murB;EC_number=1.3.1.98;note=Q8Y776 UDP-N-acetylenolpyruvoylglucosamine reductase (Listeria monocytogenes EGD-e) [pid:43.0%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:8.9e-63],MGA_353
sequence09	MetaGeneAnnotator	CDS	19844	20599	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSINKKTMINSRYIELTLTILAISIIVFLSFKWTDKKNNNYPILLEVAGAKNFNNEDILAFDFGEDSNLFKIDLKYYKENIDSKPHIKDSKIFRSFPSKIQINLIERNPIAVIISDNFFIIDSDNISLPYVNFDLTLPVLTNFKDDSDLFTIGEEVQSPSIRTAVKILNQLYKDYTDIYFSISEVSFNENEEFDLILKNGKTRIFLGKSDFYFRLKKLNSFKKNIEEYNTLEKYKYVDLRYKNQVVVKES;locus_tag=LOCUS_3440;note=MGA_354
sequence09	MetaGeneAnnotator	CDS	20599	21849	.	+	0	ID=MGA_355;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57309;translation=MNRNIIRTAFDIGSYQIKGLVFRIREDDSIEILSLKSVISKGIENGNLVDKDQFIQIMIELVELLEKDSKVSIQDDVFITLSGSNIKSVNSSTRKKAKDNEELLVDKKLKQELLNQCSDIQVSSDRYVLHNLDQGFFIDGSTLIRNPISMVGKTIEAKSHLIHVPNFNMKQISFCFENELQIKNVMPVFDGLAGAVSGLSEDQKKLGSIFLDIGSDKTNFVAFKDNYVVFSKVIPVGGSLVTKDIAAYLGCSLKEAEEIKKTKISSFASLADENETFEVGLIDDELTKKVNTKEISKIAELRYEDIIDHLKNIFRINSKEISEFKSGIKLSGGGSNIKNIDLLFKNHFPGLKVELMSNKNIHFKEDLSEKRELVNLFGLSKWLIHSVDEDGLYDYSDSKSNSVIKKIWNSILNFFE;locus_tag=LOCUS_3450;gene=ftsA;note=P57309 cell division protein FtsA (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:28.8%25%2C q_cov:78.6%25%2C s_cov:78.5%25%2C Eval:3.9e-28],MGA_355
sequence09	MetaGeneAnnotator	CDS	21926	22243	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYWEDFKKNLSEWSIVASEKAEEFTHNSKLRLDILQLERKLSSKYMKLGIFVFGKTNEKNISNFVGDEKYLSLIGDISDIKKKISDIKAEIHSSGDINNSEEE;locus_tag=LOCUS_3460;note=MGA_356
sequence09	MetaGeneAnnotator	CDS	22240	23127	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIFSFQLTAESKLHQFHFSLSNVLIFSSIFFVVLLISNYYLSKSFSESYYADQLNATDLKYKSISEELLLRISELENDIKSFEDRDKELRTYAEMPPISENQKTRNTGGSINNEDLSDNPNFLNDLTKKVDDLSFSIKMQKDSYDKIFSKIKSNEKMYSHIPSIAPVIGYIGSGYGHRKDPIDGKKRLHSGLDFSVNLNTDVMATGDGVVKKAEYDSGWGRYIKIDHGYGYETVYAHLYKIYVKKGQKVQRGDVIGKSGNSGRAAGFHLHYEVHKNKKSEDPSKYFFTGYID;locus_tag=LOCUS_3470;note=WP_008760911.1 peptidase (Bacteroides thetaiotaomicron VPI-5482) [pid:40.2%25%2C q_cov:73.6%25%2C s_cov:69.6%25%2C Eval:1.2e-40%2C partial hit],MGA_357
sequence10	MetaGeneAnnotator	misc_feature	1	645	.	+	.	ID=MGA_358;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q8DGA4:iron-sulfur cluster carrier protein,Q8DGA4 iron-sulfur cluster carrier protein (Thermosynechococcus elongatus BP-1) [pid:38.5%25%2C q_cov:95.8%25%2C s_cov:49.7%25%2C Eval:8.1e-37%2C partial hit],MGA_358;locus_tag=LOCUS_3480
sequence10	MetaGeneAnnotator	CDS	629	1324	.	+	0	ID=MGA_359;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q819Y1;translation=MPILSKELKHIAIIMDGNGRWALQKGMDREEGHIEGAETAKKIIQFCSNIRLPYLTLYAFSKENWNRPKREVSSIMKLLSKIIKKDLQSLMDLNISLQIAGEENELPLHVRKALELAIQKTANNTGMKVILALSYSGREEIVSSLKKIINNKSKNINEDLVEKHLYCPEVPSPDILIRTGGDKRISNFLLWQIAYSEIFFEEEQWPDFRAENLSNIIERFYERKRTFGNIA;locus_tag=LOCUS_3490;gene=uppS;EC_number=2.5.1.-;note=Q819Y1 isoprenyl transferase (Bacillus cereus ATCC 14579) [pid:43.4%25%2C q_cov:96.1%25%2C s_cov:88.4%25%2C Eval:1.9e-53],MGA_359
sequence10	MetaGeneAnnotator	CDS	1321	3702	.	+	0	ID=MGA_360;product=outer membrane protein assembly factor BamA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931958.1;translation=MIKIVTRLLLALFFLSPIFSQDVSLYRVNVVGNLTTSDKMIKYSSGLRDGSKIQRADISSAVTRLWDLGLFNDINIYLNNESEYGVEITIEVVEAPILNNIVFSGISIREGRLRDKIEISKGQRVRPNDIENSIKIIEDLYKEDGYYNVEVNASLEEPKEVIVQTKFPRDLVFNVKENNKYKLSNIIFEGNDSFSQRKLRKELTNTKQKKWWAFWVKNYDVKTFDEDKDALISFYQNEGFRDIEIISSNLSVNEKDQTLTLVIKIDEGEVYYYEKFNFINNSIAEEGELKRLLGIKEGDRFSLEKFEKNVYENMMSIYQDRGYIFSNVTPEIVPVGNNSLEVNFLFNEGSQVTVENIFISGNTRTRENVIRRELKLFPGDTFSRSKLMRSQRDVWILNYFDNVVPDITPISEDKVILDFLVEEKKSTQRINANLGFTAEYGVTGGAGVEFDNFMGRGQKLNVGVSTGTNFSFYSNQEPSKYKSLNISFQDPMINDSPYLVGASIFYSYRGSSTNYYFPLDFTVAGAAASFGRRLEWPDDFFRVMWSARIMQKEYEGSEADINAYIGGLEKTRGISLTQMFSRDSRNRAEFPTAGSTFQLETTYSGGIFGGNENFQKHVLDLDWFTPAFSKTVLYSSVRLGLIKTLKVDSNTTSFVPFDERFIMGGNGIPYGNALRGYPDNSIGPQTNSGQAVGGNSMARLITELRFPLSENPVIYTMLFAEMGNVWNQSTLSEPFFMERSGPLSFKKSAGVGVRFFMPGIGKLGFDMGYGFDDIDGDGNPQGWEYTITFGQTY;locus_tag=LOCUS_3500;note=WP_010931958.1 outer membrane protein assembly factor BamA (Chlorobium tepidum TLS) [pid:31.0%25%2C q_cov:93.9%25%2C s_cov:89.8%25%2C Eval:4.5e-98],MGA_360
sequence10	MetaGeneAnnotator	CDS	3718	4230	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIIMVGVLFSALLAQQKIGVVFSEKIRLDFEEFKEVEQQLQLDLEVIQREYQAMAVELDSLVKDFEKQSLMMSEELKKAKEQDIVDLNNSMQSYQLAKVGPNGELTRKQAQLEYELVEKFKSAVNTVATSKGFDIIIDGSQASLYTKPTHDLTDDVLYELRKANSAQQ;locus_tag=LOCUS_3510;note=MGA_361
sequence10	MetaGeneAnnotator	CDS	4245	5225	.	+	0	ID=MGA_362;product=UDP-3-O-acylglucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHC2;translation=MYSLLEISNKIKGSLIGDPLLPIYDVEDISTAGTNHIAFAFLPKYIKIMEKSKAGAYIVSDPSLLRNKNGIVVSNPQAAMIQVLSMFEAVDSPINAPEKSYLHESVKLGKNITISPFVSIGKNTVIEDNVVLGPGVVIGSNCKIGKSSIVHANSVLYHDVILGDNVIVHAGTIIGSDGFGFHTEKNNHFKIPQIKGVRIGDNVEIGSKCTIDRGSVRHTLIDKNTKIDNQVHIAHNVHIMEGCLIAGGVFIAGSTVVEKFCVFAGKSDIGPHLNVGEKTILAARSLLLKSVDGNEMYAGNPARPIKEKQKMDAVFKRIEKLEKKIS;locus_tag=LOCUS_3520;gene=lpxD;EC_number=2.3.1.-;note=B5YHC2 UDP-3-O-acylglucosamine N-acyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:36.8%25%2C q_cov:98.8%25%2C s_cov:94.4%25%2C Eval:1.0e-54],MGA_362
sequence10	MetaGeneAnnotator	CDS	5227	6147	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFQKTIRHSVSLTGVGLHTGVQSTITFHPAEENFGIKFVRTDKSDQIVTPFIDNVVDLTRGTTIEENGVRVHTTEHVLSACAGVGISNLLIELNSKEPPVMDGSAKDFVNVLIDGQIVEQKAEKKFLEITQPVVYTDEEKDVEIVGVPFNGFKTTFTIHYDLEGLGVQYSSIQNTYTNYEKQIAPARTFCLLSEVTALMKQGLIRGGNLGNAVIIVDSDINSEEVKLFKDQFGIRLYEGTKGLYKSQRLRFANEPVRHKVLDLVGDLALLGMPIRGHITAIKSGHKGNVEFAKMLRDTFRNQFE;locus_tag=LOCUS_3530;note=Q8KBX0 bifunctional enzyme LpxC/FabZ (Chlorobium tepidum TLS) [pid:45.4%25%2C q_cov:97.4%25%2C s_cov:64.7%25%2C Eval:4.1e-71%2C partial hit],MGA_363
sequence10	MetaGeneAnnotator	CDS	6266	6979	.	+	0	ID=MGA_364;product=acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GY97;translation=MTIGPYNVIEDNVIIGNNVSIGNFNTVCSFTEIGENCQIFHNNSLGAIPQDKKFEGEKSKLLIGKNTIIREFVTVNRGTKATGVTLVGDDVLIMAYVHIAHDCIIGHNSILVNLVTLGGHVEIGDWAIMGGASNAHQFCRIGQHAMVAANSKIVQDIPPYILAGRHPVQFSGINALGLQRRGFSDEDRLQIKRAYKILFQSDLNQSNAIEKIKLEFPKNTLVDNILDFFENSKRGII;locus_tag=LOCUS_3540;gene=lpxA;EC_number=2.3.1.129;note=A6GY97 acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:46.0%25%2C q_cov:100.0%25%2C s_cov:91.2%25%2C Eval:3.8e-57],MGA_364
sequence10	MetaGeneAnnotator	CDS	6951	8126	.	+	0	ID=MGA_365;product=1-deoxy-D-xylulose 5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q185R8;translation=MRIAKEELFNFPLKKIGIFGASGSIGKQALSIIKDHSNELKVEALCVNSSSDFLYEAVKEFHPRYVGINFIKDNHPLIRYCSLNNIQLFIGKDSASKIIEISNLNIALNAIVGSIGLDITLGLIGRCEILALANKESLVVGGGLVQESMNNHSTKLIPVDSEHSAIYQCMLGEKTDNLQKVYLTGSGGPFLTRNLKTFNSITVEEAVNHPNWSMGQKISVDSATMMNKALEWIEAIRIFQIKPDQIEIIIHPESIIHSMVEFVDGSYKAQLGSPDMRVAIQYALLGGERKNSSFPRLSFTEQLSYNFFPVDYNRFPILFLVKQWEKEGGNRIPIMSIANDIVVGQFLKREIRFVDIIPKIEKTVEKFANNSSLTKEELAKLTSQIQHYLGV;locus_tag=LOCUS_3550;gene=dxr;EC_number=1.1.1.267;note=Q185R8 1-deoxy-D-xylulose 5-phosphate reductoisomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:41.8%25%2C q_cov:93.6%25%2C s_cov:95.6%25%2C Eval:1.2e-76],MGA_365
sequence10	MetaGeneAnnotator	CDS	8127	9299	.	+	0	ID=MGA_366;product=zinc metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RJN3;translation=MIYLLAFIVLIGVIVFVHELGHYVAARSVGVTVERFSLGMPPKLIDIIKKNNSTEIEIYFFKIINKKIKWDKITTISFKRKQVASDTIFGVGLLPLGGFVKMKGILDENMDQDFTGDPDELESKNAFQKIWVLSAGVIMNIILTFVVFSSIGLIDGEMVPVSSDPIIFSVEPGGPADLVGIEKGDKILSLNNISIDTWNEATEIIMQHPNDTISVKILRNGESILAQPTLAAAPNLRKGRVDQEIGILGVAEEVQNMPLGVLGSIGYGLSQTKWSAILMLSSLKMIFTGNVSNEDVGSVIMIGDIAGQAAQAGLVPFLYIMALISMNLAFINLLPVPALDGGHILIILLESLRGKKFTLKTRMRIQSVGMFILLGLMAYLILNDIVRYFF;locus_tag=LOCUS_3560;EC_number=3.4.24.-;note=Q2RJN3 zinc metalloprotease (Moorella thermoacetica ATCC 39073) [pid:30.6%25%2C q_cov:99.0%25%2C s_cov:99.1%25%2C Eval:3.0e-43],MGA_366
sequence10	MetaGeneAnnotator	CDS	9296	10024	.	-	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRMLSAIFIASQLLGQTLQKGDSYHYNVYFEDLIKLGESNLSVIGEERMGGFETFHLKFSIRTSSLGDKIYKIRNSVESWIKKEDYTVLKQIKKSREKNFKRDFTTEVLENKAISNSKEFLVPDKIFDPYSLILILQNFYDISIPDPDKGLVNQEKKNEIHFDILDGSKIRKLSLINGGVDIIRTPLGKFNAVTFKPKNPLKNGDMEISYGYYENRLVPIKISLALNSGVVVMKIKRVER;locus_tag=LOCUS_3570;note=MGA_367
sequence10	MetaGeneAnnotator	CDS	10025	10582	.	-	0	ID=MGA_368;product=threonylcarbamoyl-AMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942241.1;translation=MKIFPSSMLNLEQIICDELNKGSIIAYPTDTIYGIGCDASNNRSIERINLIKGRSAPMSIAVSGIDMIQDKLIINNLNQVTEILKDGSTCILQEKPGAFSSLITKDGNIGFRVPQHQLLQSIIQLFGRPITTTSINRTGTAPLISPLKIQKEFGEEIDVLIDDGEINNGASKIYFYQNNGFERIR;locus_tag=LOCUS_3580;gene=yrdC;note=WP_010942241.1 threonylcarbamoyl-AMP synthase (Geobacter sulfurreducens PCA) [pid:30.1%25%2C q_cov:85.9%25%2C s_cov:80.3%25%2C Eval:6.8e-20],MGA_368
sequence10	MetaGeneAnnotator	CDS	10584	11288	.	-	0	ID=MGA_369;product=lipid A lauroyl acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545432.1;translation=MVDKNLSIAFPGLLKKERYLIAKKCYKFFAQEMVELIRGTFWQNTSGVRFQNIKILEEALGHKKGVLLVGGHLGAFDKAFASIKNQGYNISGVAYKQNNKGSDLYFKKIRENFFSKQLYRGNDLKEILNLLKNNEIVVLLSDQNARKKGVNVNFFGHQCSTFSGAAVLHKRTGAPIICFDIIKHDEEYCVYFKKINENNSKDISTIIQDYTLAIEASIKKAPSQYFWFHNRWRN;locus_tag=LOCUS_3590;note=WP_012545432.1 lipid A lauroyl acyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:24.7%25%2C q_cov:97.9%25%2C s_cov:79.9%25%2C Eval:6.2e-12],MGA_369
sequence10	MetaGeneAnnotator	CDS	11436	12641	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583133.1;translation=MKTKFQSIVLSWVLASTLLFSFDEPKSLIYIVPINDVIDLGLPSLVTRAVSEAEEKNSSLIIFDIDTFGGRVDAATQIKDAISSSKIPTIAFINRRAISAGSLISLSCNKIYMTEGATIGATSVVDMSGNKQSEKSQSYMREEMAATAERVGKNPNIARGMVDEELSFEFLVIDGDTLQVNDIEGRKEGKLITLTTELALKYGIADGVSETIEEILSLESIENYEMVTIKENWSENLVRLLTNPTISSLLMTFGTIGIIAELYSAGWGIGGTIGAICLALALGAGYISKLATSSDLLIVASGLLLLLIEAFFIAGFGVIGLLGVAVLFYGFYLLLIPDIPLDYETQQQAIDGFGWGVFIGIIGLIYLVRVILRSEFFNKLVSLESNKSNLKENYNNRIKVD;locus_tag=LOCUS_3600;note=WP_012583133.1 hypothetical protein (Dictyoglomus turgidum DSM 6724) [pid:32.6%25%2C q_cov:95.3%25%2C s_cov:83.5%25%2C Eval:4.8e-44],MGA_370
sequence10	MetaGeneAnnotator	CDS	12658	13626	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812222.1;translation=MGIYAAVLLVLTILLILWIVPVGLWLQAIFSIGGKGVTIFSLIGMRFRRVPPSVIVNGLIATRKAGIDITSSDLEVHYMAGGNVDKVVDALIAASKAGIELSFEIATAIDLAGRDVLAAVQTSVYPKVIDAPVEGKLSAVAKDGIEVRARARVTVRTDIPNLVGGATEDTIIARVGEGIVSAIGSRETYEAVLENPDSISRTVLEKGLNKGTAFEILSIDIADIDVGKNIGAQLQADQAEADLRVAQAKAETRRAMAVALEQEMKAKVVEAESQVPLAMAEAFRNGNLGVLDYYKLQNISSDTSMRQSIAQGGENKREENKE;locus_tag=LOCUS_3610;note=WP_005812222.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:62.9%25%2C q_cov:95.7%25%2C s_cov:93.1%25%2C Eval:1.3e-99],MGA_371
sequence10	MetaGeneAnnotator	CDS	13630	14097	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELIYYGILILFYLYSSYRSSQKRKQSRLESLKSTEVGFENRESKPQEPFFDLGINLEERSDPLAIFKQALEKEKAIQESRKKVEIILDREIQNEKKEPTFYENHPRLSNIKRKPKKTKSNKLLAIQRQYRNQPFKLAIVMKTILDEPLGLQNK;locus_tag=LOCUS_3620;note=MGA_372
sequence10	MetaGeneAnnotator	CDS	14094	14648	.	+	0	ID=MGA_373;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GZB9;translation=MIIVIMGPPGAGKGTQAKILASKFNLLHLSTGEILRNEIDKGSKLGLKAKKFMDQGNLVPDKLVLEMIEKIILTNQGEGFIFDGFPRTVPQSEGLDSLLGRLKLKIDYVLNISLDKSVLVKRLVERAKNSGRSDDSEEVIMNRQDVYEELTKPLIDYYHDEVKEINGDGTVEEVSKRIFSQINQ;locus_tag=LOCUS_3630;gene=adk;EC_number=2.7.4.3;note=A6GZB9 adenylate kinase (Flavobacterium psychrophilum JIP02/86) [pid:47.6%25%2C q_cov:98.4%25%2C s_cov:97.4%25%2C Eval:4.1e-41],MGA_373
sequence10	MetaGeneAnnotator	CDS	14645	15244	.	+	0	ID=MGA_374;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18AZ0;translation=MKIIGVTGGIGSGKSTVCKIVSKHFNVKIIDADVLAKQKYASSSIQEKVLKAFPEMQSFDVAQLSKIVFQNHNTINRLTQILYPELLIDFQEIISEQEFLGKVSAILIDAALLIESNFHNYFHKNYQFKLVLVESNEKERIERVLKKNQLSFQEIKQRMKLQLSDKEKIKFADYIISNSRNLDFLEAKTLKVFQDILNN;locus_tag=LOCUS_3640;gene=coaE;EC_number=2.7.1.24;note=Q18AZ0 dephospho-CoA kinase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:33.5%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:9.9e-23],MGA_374
sequence10	MetaGeneAnnotator	CDS	15248	15841	.	+	0	ID=MGA_375;product=3-methyladenine DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902951.1;translation=MATLPNEIIRKLSNDKILKKIIQEYAFPILKPSQNYFEDLIKFIIYQQISTKAGNTIYRRFQEFYQGKESKVINWTEEEWRSIGLSIQKKTYIENFFSPESKELIRSLYQEKEIDKLRKSLTSLKGIGDWTADMFLIFTKNYEDVFPIKDLAIVNTIKKLYEVQTEEEILFLSKQWAPYRTYACLYLWESLNDNFPK;locus_tag=LOCUS_3650;note=WP_010902951.1 3-methyladenine DNA glycosylase (Halobacterium salinarum NRC-1) [pid:33.1%25%2C q_cov:90.9%25%2C s_cov:94.8%25%2C Eval:5.4e-21],MGA_375
sequence10	MetaGeneAnnotator	CDS	15844	16638	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTGAIPNQKLLVSQYDNLHNVIREEFYETVQINFPGDLENSNGFDFVFMRDHFITHRNKNAVICNMSVPERKEEPKFTIDPLKELGYNVLEINDKNKTFEGGDIFYLPEENILLAGNNRNSQGGLELLSESLGIRELKIIPNFGFHLDTSLSPIFDNQYNCIGIQCSENMFSSRDTIYLKELCKENSWELLILSEKEYGASENEFRTNLNSLTLPGLIVSNSRNHPLRLLNFLKSHDVSLIECPVSEFALSGGSIHCLTNELH;locus_tag=LOCUS_3660;note=MGA_376
sequence10	MetaGeneAnnotator	CDS	16779	17462	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLILNVNDLNQYLPALKSVEEINYTGKHLPGGLFWGKAIDGLKTLPDSSIDLIISKPFFYNNEGKLPSVDFEEQEIWIEESKRSINELGAFVLITPIEFSFTFQQIIEKHFTVQGRINFPIESNERNLPWKKPSFDLLVCYKGNSKINNHPDIKREGKESLNNTISDVMNLVTHKRNLVVDPFLNQGDIAKIAHGLERKFIGFEEDKNKLLMIMKKLNEGDKIND;locus_tag=LOCUS_3670;note=MGA_377
sequence10	MetaGeneAnnotator	CDS	17455	17892	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392728.1;translation=MIKQLESDVKEALKSGDRTRANFIRLLIAKCKNKSIELGRALEDSEIIKVLQNSAKQLQDSLKLYQDGARQDLVDQAKVELSCIESYLPKMLSEEETKQIISSIIEETGATGLKDLGKVMPVLMKKGQGKIDGKMAQEILKSMLS;locus_tag=LOCUS_3680;note=WP_011392728.1 hypothetical protein (Moorella thermoacetica ATCC 39073) [pid:44.1%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:1.2e-29],MGA_378
sequence10	MetaGeneAnnotator	CDS	17892	18371	.	+	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDLLLSIFVLIFGAIGYQKGLLESASDFINLFFSLIMVLLFYNDFAVFLSMEFRLTGGAVIIIAMSIIFIASLFFLRFFTSVIIFLTEGSNQIQYIDKLFGLFFGVFRGIVLVVISAWFFDTLISSKLYSILKSESQLLVYLEPYINYIRNNVNIFS;locus_tag=LOCUS_3690;note=MGA_379
sequence10	MetaGeneAnnotator	CDS	18382	20115	.	+	0	ID=MGA_380;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I619;translation=MSQETIEKVLNDVNILDVISPYVSLKARGRNYFGLSPFRTETKPSFSVSPDKNMWYDFGSGQGGNAIQFIIEFEKISFGEAVKLICEKHGIEFIETGESEDNNVYDSLYEIHELACLFFQSALHKKEVAAYLKNRSIAESIIKKFRIGYASDSWDDMLTEFKGKFNESILVESGLFSKGKRGLVNRFRNRIMFPFFNLSGKVIGFSGRSISEKEDVKYLNSPETRLFQKSKVFFGSYFTFPNIRKNQFAVLVEGQTDFLRLFSEGYHNVLATSGTAFSVKHAAALKKFTNRVLLAYDSDSAGINAAIRTSYVLLQSGLEVRIIDMKEGLDPDEFFIKEKTPNEAFKALIKNALHPVDYLVLKKKALEGGAADQSRFLDEQLLEVIQIKDPIIVNDLIKRFATKFQIDEGEIVRRIEKIKPNQFTERSMPGQASQDSYNIMLSDTLLERAEIELLKILIHNSSMKDKISISDFSNQYIKEIAKKILEDNQPISISSLLDSFGSSPKLRNFLASLIIDYSEKDDLNLIVEDCLRVIRAEPTRRKIQSLRSQIQQLEDSGQQPSTDLLKELAELQKNLKK;locus_tag=LOCUS_3700;gene=dnaG;EC_number=2.7.7.-;note=A5I619 DNA primase (Clostridium botulinum A str. ATCC 3502) [pid:31.4%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:3.5e-73],MGA_380
sequence10	MetaGeneAnnotator	CDS	20166	22859	.	-	0	ID=MGA_381;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787151.1;translation=MNRTILSALVTIAMFTSAVFAQGTISGTVTDAEGNALPGANVVIEGTSLGAAATLSGSYSIEVPNGAYTVTASVVGYKSSSASVSVSNSSASANFSLESSSVALGGVDVLANRVDNTAAIAYDDYTKADIDFRLGGRGLPKALSTLPNVYVENGGGWDDENVYVRGFDDRYTAYLINGVPMNDMENGNLYFSNWTVLADVASVVQLQRGAGAVNLAVPSLGGTVNFISAPASTEASATVKHEVGMFQYNKTAVVLNSGLMMDDKMNFQIAASRRTADKFFQNGTYSDAWSYYFNASYSMNDNNRLEFVALGSPQIHGQNFYNNRIADFSHELARELGVSEEDIASRTERGIEFNPRYDRLDTPYYGKRAVASWKPFDGWNWKSADRHSAHEINGRENYFHKPIVQLNSYNKLSDDMMLSTSFYYSGGEGGGSGSAGSVRYGNDGAVDWDATIAQNIADNRYNDDYGYVSRGIIRGSRNNQYTYGIMSKLDYDISSNAKMTFGLDWRTAEVEHYRQVYDLLGGDVFYNSSNPNWTAEQRYRTLGDKIYYDNTNTIDWLGGYGQYTVSNNDGSSWFAMFGATTASYTAENHFSVERQFVEADAETGYQMKVGGTYPLNDTFLLFGNFSSSNLTPSLDKLVDDVNYVLNSDFENEKATWFDLGARFKSANGQWAGSMNYYSATWSDRALSGTRTEANGEETFFSIDGLNQNHSGVEYSIAYQPLPILRIDFRGHMSDWVFTDDLNYTYYETIGDPSSATNFDLYVKDVKIAGAPQEAQNLILTTFWNTMKASLEVERFGKLYARWGYDNDVSDLASTLGNPSNTFKNDAYVTDFTTLLNFKYQYGMNVMGRDVTLNYSIHNLTDEMYLGDIVDFGSGDVGNLRVRLGQPRSWNFGVTINY;locus_tag=LOCUS_3710;note=WP_005787151.1 TonB-dependent receptor (Bacteroides fragilis YCH46) [pid:23.0%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:7.1e-55],MGA_381
sequence11	MetaGeneAnnotator	misc_feature	1	648	.	+	.	ID=MGA_382;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_003721785.1:ABC transporter ATP-binding protein,WP_003721785.1 ABC transporter ATP-binding protein (Listeria monocytogenes EGD-e) [pid:36.8%25%2C q_cov:98.6%25%2C s_cov:67.2%25%2C Eval:1.5e-38%2C partial hit],MGA_382;locus_tag=LOCUS_3720
sequence11	MetaGeneAnnotator	CDS	641	1405	.	+	0	ID=MGA_383;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8P3U1;translation=MIKNWVGFSTLSGREIKRFFSVWRQTVVPGVVTTLLYIFIFGVALENRISTISDIPYKIYILPGLIMMNVITNSVANSASSLLQMKLLQTLPELMITPLSSTEMSLSFILGGTVRGTVNGVLILLICVLSGMPLVNPLLTVGIIVIVSWIFSALGLIIGQVADSWDQLAVIQNFIITPLSFLGGIFYSIYMLPDWAIRISLLNPIYYSINSLRAATIGVEEFSLFGSIMIIIGCNILLSSVAIMLMNTGYRIRS;locus_tag=LOCUS_3730;note=Q8P3U1 transport permease protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:33.2%25%2C q_cov:99.2%25%2C s_cov:96.2%25%2C Eval:2.4e-44],MGA_383
sequence11	MetaGeneAnnotator	CDS	1406	4222	.	-	0	ID=MGA_384;product=glycine dehydrogenase (decarboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F937;translation=MSSFIKQHIGPSENEIREMLQFLGYQSLDDLLEKLVPENIIDIDGNTFGNESFSENEILKHVKTLGSKNSIFRSLIGQGYYDTILPNVILRNILENPGWYTQYTPYQPEISQGRLEALLNYQTMISEITGLPIANASLLDEGTAASEAMLMLYRKNSSSKNQFLIDEKCFQQTIDVIVSRAEPLGIETIVCPFKEFDFSGAFGCLVQYPNRYGGIEKESVYKSFVKKAHQESCKVVFAADLMCLQLFESPGALGADISIGNSQRFGVPLGFGGPHAAFMSTSEEFKRDIPGRIVGVSQDRRKNQAYRLTLQTREQHIRREKATSNICTAQVLLAIISGMYALHHQPKGLISIANQIHNFTIQLAKGLGRLGHTIILEDLLFFDTIAIKANRVTAEEIKRRAEIKKYNFMYHDNGIISVSLDEKTDEKEIEMILEIFGCEYLSDFELKAPKLNRSTATLSHSIFSSINSETEMLRYITKLEKRDLSLNHSMIPLGSCTMKLNATVEMIPISWPEFSSIHPFAPPQQASGYLQIIKTLEEMLYKVTGFNAVSFQPNSGAQGEYAGLLCIREYHKSLQSERSICLIPESAHGTNPASAIMAGLDVVIVKCDNEGNIDFEDLKIKTEAAGDRLSCLMITYPSTHGVFEEKIKDICDLVHSYGGLVYMDGANLNAMVGVCKPGKFGADVMHINLHKTFCIPHGGGGPGMGPICVNNKLKPFLPKHSFINDNFTYSVSSAPYGSASILLISYIYMKLMSSGGLLKASQVAILNANYMAKRLEKDFTILYRGKNGLNAHEFIVDCRSFKTNTNITNEDIAKRLIDYGFHAPTMSWPIPGTLMIEPTESESKSELDRFCDSMISIRKEINSIEIGELSKEDNPLINAPHTIQDICDNWSHSYTKNQAVFPLEWIKENKFWPYVSRVDNAYGDRNFFCVCPDINSYK;locus_tag=LOCUS_3740;gene=gcvP;EC_number=1.4.4.2;note=Q8F937 glycine dehydrogenase (decarboxylating) (Leptospira interrogans serovar Lai str. 56601) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:97.9%25%2C Eval:1.1e-300],MGA_384
sequence11	Aragorn:1.2.38	tRNA	4244	4316	.	-	.	ID=Aragorn_19;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0190;note=Aragorn_19
sequence11	Aragorn:1.2.38	tmRNA	4446	4793	.	+	.	ID=Aragorn_20;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm0010;note=Aragorn_20
sequence11	MetaGeneAnnotator	CDS	4799	6421	.	-	0	ID=MGA_385;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S3W3;translation=MIQNHINTFIRNYLIEKKIDFEDWSISSNSNKEFGEFSSNLALKLAKRLKKSPIEIAQNIVKENEAVSEIFTLSASAPGFINFHISNKYYYTVLKKILQEDENFGKKRTQRKKANVEFVSSNPTGPLTVGHGRQAILGDIIANILTWDGYTVTREYYYNDAGKQMRVLAESCYAKYAALCGVKVPFPENGYVGLYIEEIAQKILDLKGSGLKSDDKIFRDFTEKEIFTDIQNTLNRIGIKFDVFTKEGQFYRNGSIDNILNFFKDNNLSYVKDGAVWFKTSDYGKDEDKVLVKSTGEPTYRLPDIAYHADKVDRGFDLIVDVFGADHIDTYPDVLLGLQCLNKKTEHIKVIIHQFVTLKKAGEIVKMSTRKANFVTLDELVDDLSPDIIRYFFIMRGANSHLDFDLDLAKDESEKNPAYYLQYAYARISNLLTRYNKELGTNKTTVNYENLKNEDELNLLKILSDFPDRMNDIVSSLEPKRLATYLEEVAGAYHKFYGNHKVINSADINTSSERKDLCKATQIVLKIGLSILGISCPERM;locus_tag=LOCUS_3750;gene=argS;EC_number=6.1.1.19;note=Q2S3W3 arginine--tRNA ligase (Salinibacter ruber DSM 13855) [pid:44.4%25%2C q_cov:96.5%25%2C s_cov:96.3%25%2C Eval:2.3e-124],MGA_385
sequence11	MetaGeneAnnotator	CDS	6423	6752	.	-	0	ID=MGA_386;product=ribosomal silencing factor RsfS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9A1F0;translation=MSKPKLLLKEICSLAQEKKAENIKMLDVSNITSIADYFIICSASNPIQLKAIADNISEKIKEAPFRKEGYENANWIILDYIDVVVHLFLDETRSYYDLERIWFDAKAVK;locus_tag=LOCUS_3760;gene=rsfS;note=Q9A1F0 ribosomal silencing factor RsfS (Streptococcus pyogenes M1 GAS) [pid:49.5%25%2C q_cov:97.2%25%2C s_cov:87.2%25%2C Eval:8.5e-24],MGA_386
sequence11	MetaGeneAnnotator	CDS	6752	7207	.	-	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLNLLIVLLVFLNAILVFSLVSHNFFNGSEQKTEKISLPKREKAYQPQEIVVSVLNGCGVPGVANLISSEIQKKYGAKVIKTENADNFDYQKTQVIYSSASDPDIQNFITLISERVDSEHIYPSTFPLKDETIIIIVGKDYQDFLNFY;locus_tag=LOCUS_3770;note=MGA_387
sequence11	MetaGeneAnnotator	CDS	7200	7928	.	-	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLDIVILGAGKGSRMKTDIPKVLNLLNEKPLIDYVIDTAKLLSPQQIILVVGFKKEQVIEHTRNRGIKYAIQEPQLGTGHALQCCKDLLLNNNSSILVLYGDVPKITLKTLKNLYEHHLKEQNDITFLSADAVDSTGYGRIIRKGASGLSQIVEHKDCSREELKINEINSGICLLESPEIFNHLSSLENNNSASEYYLTDIVKICNKILKIGVLKADNYKEILGINTLNQLEEMKDINA;locus_tag=LOCUS_3780;note=A5I7S0 bifunctional protein GlmU (Clostridium botulinum A str. ATCC 3502) [pid:42.2%25%2C q_cov:94.6%25%2C s_cov:50.1%25%2C Eval:4.0e-49%2C partial hit],MGA_388
sequence11	MetaGeneAnnotator	CDS	7925	9055	.	-	0	ID=MGA_389;product=tRNA-specific 2-thiouridylase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CX40;translation=MIKIQKIKMKKIKVVLGMSGGVDSSAAAILLQKKNYEVHGVFMQNWDDSDAICSAEDDFVDALSVAKQLNISLKKIDYIQKYKNRVFTQFLEDHKRGFTPNPDVLCNREIKFDVLKQHADKVGAQFIATGHYAQKIKNSDGVYQLAIPKDRQKDQTYFLYQISQSDLKKVIFPLDKYNKKEVRKIAEQNGLINSRKKDSTGICFIGERKYNDFVGQFIHSTKGNIVTTDGEIIGSHNGHIFFTIGQRKGLKIGARKGGADKPWYVVHKNINDNEIIVAQGKDNKFLLSDEASVKSLNWINTEPKSGSILYAKVRYREKSIPCKLLSRKNLLIVKFEKPCRAITPGQSIVFYNDEGFCLGGGIIDKRSVPSLNLSLR;locus_tag=LOCUS_3790;gene=mnmA;EC_number=2.8.1.13;note=Q8CX40 tRNA-specific 2-thiouridylase MnmA (Shewanella oneidensis MR-1) [pid:47.8%25%2C q_cov:93.9%25%2C s_cov:96.0%25%2C Eval:5.1e-93],MGA_389
sequence11	MetaGeneAnnotator	CDS	9089	9988	.	+	0	ID=MGA_390;product=adenosine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941774.1;translation=MKANRSKNLISGSISIDQIINIYGTYNDVLGGSAPYALYATKQKSSSIVGVIGTDFADHHFQDLKNQSQNMDNVSVFEGTTFCWGGKYASDFSYRVTNYVRPGISDDHFPKVCESDLSPEFLLLGNCSPHLQLDLLNQIKSEPFIILDTFKLYIETTNKDLKKVIPHADILSINLNEARALSGINKGSVQEMGKIILDLGCKSLIIKQAENGAFYISEKESFSIPSYPVKKLIDPTGAGDSFAGGMLDALSQGKPLIESMCWGSTIASFCIESVGIEGLKNLEEEKIQERMLFFEGLLS;locus_tag=LOCUS_3800;note=WP_010941774.1 adenosine kinase (Geobacter sulfurreducens PCA) [pid:33.9%25%2C q_cov:96.7%25%2C s_cov:93.6%25%2C Eval:5.9e-43],MGA_390
sequence11	MetaGeneAnnotator	CDS	10036	11130	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFKPIFFLTLLIAVVLAGPDLESAKIRIKDKDWKEAERYLLLAINHPKDKWEAAFHLGDKIYVRTEEWVKVREYMNIALTADSNLKIRPTANDRKVSIEQAVNASLAKSYNLIYYKATGYLKLLSAAQSEEQKNMFLDQAIATSKQAVDLDPNQPGAYALLALYASVQGQKEEAKKYIDLSLGLPDLTEETLLALLVSAGQSMVRLSEFDIALDYYSRALKIDANEPSVLKNVGALYLAKEDFNSALSNLNLAIEVTEDDKELVDLYFNRGLVYLKMEKFDEAEYNFEEAYYLAPQDEEALLGLARALEEAERWRKSRNYYMELIDKDPNNSAYYYGVYRTYFGEGRLADAQEYLNKANALR;locus_tag=LOCUS_3810;note=WP_011015826.1 hypothetical protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:26.2%25%2C q_cov:43.7%25%2C s_cov:24.8%25%2C Eval:3.3e-09%2C partial hit],MGA_391
sequence11	MetaGeneAnnotator	CDS	11141	12097	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLPIKLYFSLIFFFLGCSESNRITQPETTSPTVKYTAGEIYSDTQNNVEFRFGNTPFIIIVPHDGSTEPTTIPDRTGNIDRATNTRKAAEQLAYFLNGFSGGKFPHMIVNNLHRSKMDPDLSLTEGAQGNSYATQAYTTFHKFIQTAVDSIEQQYDSAVLINLIGHNHDIQRIELGFLLSGSQLSLSDSELNSLSSVSSIAQISSYSSNSFSDIIRGVTSIGNKLKDTTYTSDYVTYSFDVVPNESTPSPGDNPYNSGGYIVDRYGSQNGGEINSIEISSPFVGHRDSANSYRALGYIILESVKLFYEANSGNSLY;locus_tag=LOCUS_3820;note=MGA_392
sequence11	MetaGeneAnnotator	CDS	12078	13877	.	-	0	ID=MGA_393;product=gamma-glutamyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001254471.1;translation=MKKLFSISAVIFLFACSSSHSIKSNSGAVSSTSKLASDVGIAFLKKGGNAFDAIVATGFALAVTSPANGNLGGGGFMVGHTSEGDEISLDFREKAPSAAYETMFLTENEYDKNKAQKSHLSSGVPGTVAGLIQIYQDYGSGKFTLEELIEPAIKYASTGFPISEFTAWGLDYNKDGFIEDEGSAKVFVKNENPQIELVHSQFLNGELDSQEFQSRMKNFDEWKPGDILIQKDLAKTLSLISKKGKDGFYKGEIADLIELEMIKNGGLVSKEDLENYKAVYREPVIGNYRGFKIISMSPPSSGGALLIQMLNMLENYDISSINRNSANYAHLFTEVERLAYADRAMHLGDPDFWNNPLEMLTSKQYALDRTKLIKSGKANKSDDIAAGTSTYESMETTHYSAIDRWGNTVAITTTINFSYGNRKIVDGAGFLLNNEMDDFTAKPGIPRVPNAFGLVGDNGANAIEPHKRPLSSMTPTIVLDPDSNAILSLGAAGGSRIITAVLQVISSVIDHGLTIDEAIDHPRIHSQWLPDILRYENMALSSDTIKELESMGHIFNHEGEAEKGFYGLARVHGVQKLNGRFIAGADKRGRHNGNEGSTY;locus_tag=LOCUS_3830;note=WP_001254471.1 gamma-glutamyltransferase (Helicobacter pylori 26695) [pid:47.6%25%2C q_cov:88.0%25%2C s_cov:87.3%25%2C Eval:1.4e-125],MGA_393
sequence11	MetaGeneAnnotator	CDS	13947	16739	.	-	0	ID=MGA_394;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919539.1;translation=MRKLYSMLALVLMTGLMFAQGSLSGTVTDGSGNALYGANVSIQGSSTGAATNEDGSYSIDNLKDGSYTVKVSYIGYESVSSSVTIGGGSTTANFALSSSALSGNSVSVLGSRFARNINEQAVPVEVITELEIRAAGFTETNELLQSLVPSYNAPRGYITDGSDHMRPATLRGMSPNQTLVLVNGKRRHQGALVHVNGSVGRGSTQVDLNAIPASAIEKIEVLRDGASALYGSDAVAGVINIILKESGGTDLSVTYGQHLSYFERGYNAGEGMLPGQGASSFGWDLDSEHEGNGYLPFTPGRGWARSGVETVLKNDGKNLILHGGSGLNLMGGNLYLSGQIRDGGRTNRTGLDPRQQYFSGAEYAAKEAAFDRENHRIGAGEFEQVSLMWNGSFPLERGTLYTFGGYNTRDGQSGCYYRRANDNRTLRAWYPDGFLPLISPTLSDKSMAIGLKGLNGDYAYDISVTTGSNDFAWGMENSHNATAGVSEYQQSEFDLGTLGYSQTTFNLDITTQLDGSDWPEPFNIDGPINLAMGVEARMENYTIEAGEEAGYADFGYDVLDGPNAGASAAVGCQCLPGLAPNNETDRDREAYSFYVDAEADVRENLLMSVALRTETYSDFGSTTNGKVAMRYELQDGLAARASYSTGFRAPALQEAYFSSIATNFINGIPYEIGTFPVDTEAARALGAVDLEPETSINRSMGFTYNDDVFSLAIDAYNIIVEDRISVSENFTGSGMVAFFNERGIPASGGRYFFNGINTETNGLDVVATMKQDLAKGGSLLLKAALNFNDTEVTNKDDLTTPAALSAYTSQSLLGSTNITRFESSAPRDNVQLSATVQKPSSTLMVKMNRWGEVTIPDSKQILSAKWTTDMEYSFQVSSQARLALGANNLFDVYPDKTNKSQSFNGIFQHSGYSPFGFFGRYLYSRLDISF;locus_tag=LOCUS_3840;note=WP_010919539.1 TonB-dependent receptor (Caulobacter crescentus NA1000) [pid:37.6%25%2C q_cov:89.1%25%2C s_cov:96.2%25%2C Eval:2.2e-139],MGA_394
sequence11	MetaGeneAnnotator	CDS	16885	17610	.	-	0	ID=MGA_395;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036182.1;translation=MRSANPALNKNTFRVQRMAGEASMTIDGTVNKTALGLILLMTTAIFSWNNPEIALSLFWPITILTFILLLITIFNKKAAPITVPIYCLAEGIVLGGISAMANSIFPGIANQAIAITFGILAALLFLYKSRLIAATENFRLGVFSATLGVFFIYIFNMILGLFGVELFGSLFGNGLTGILFSVFVIGIASMNLVLDFDFIEHGAENGAPKYMEWYATFGLMVTLIWLYIEILNLLMKLRSRR;locus_tag=LOCUS_3850;note=WP_011036182.1 membrane protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:48.8%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.8e-57],MGA_395
sequence11	MetaGeneAnnotator	CDS	17621	19063	.	-	0	ID=MGA_396;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A1P8;translation=MSTKHLDKIVALCKRKGFVFPNSEIYGGLKASYDYGPLGVELKKSISEIWWNSMTRLYSNIVGLDSSIMVHPDVWEASGHIANFNDPLTDNKDSKKRYRVDDLLAQQKTKVIDSLCEILSIKNNNDNETIDNISQFLLKNSNEWKSALSEAGVIDPFSGNVGNWTEVTQFNLMFQTNAGPSEKTGKSIFLRPETAQGIYINYLLVQNSMRLKVPFGIAQIGKAFRNEIIARNFIFRTREFEQMEMQYFVKPSEDNEAMKFWKKERMDFFSTKLGIDDKNLRFHEHSEDNLAHYAKAAFDIEYNFPFGWGEIEGIHNRTDFDLKQHEKHSGKNLTYFDPIENEKYHPYIIETSTGLNRLFLMVLCEFYHEDTNNNRTVLKLPFDLAPNKLVICPLLKKDGLPEKSNEVFNKLSKEYRCIYDEQGSIGKRYYRQDEAGTPFGITVDHETLENNSVTIRERDTMQQHRVEINKISEFINDKKN;locus_tag=LOCUS_3860;gene=glyQS;EC_number=6.1.1.14;note=Q8A1P8 glycine--tRNA ligase (Bacteroides thetaiotaomicron VPI-5482) [pid:52.3%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:1.3e-142],MGA_396
sequence11	MetaGeneAnnotator	CDS	19084	19440	.	-	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNILKVSYFLFLFFLLGNQSSVESRLYTLNRELMCPVCEGLTLEQSQAGPALEMKEEIKKMVVEGKSNQEIKDFFVEKYGKNILSNPPKKGFDNMLWLAPLFFGFLGIFFLYKYFFS;locus_tag=LOCUS_3870;note=WP_011228652.1 cytochrome c biogenesis protein (Thermus thermophilus HB8) [pid:40.0%25%2C q_cov:76.3%25%2C s_cov:64.7%25%2C Eval:2.3e-13%2C partial hit],MGA_397
sequence11	MetaGeneAnnotator	misc_feature	19433	20815	.	-	.	ID=MGA_398;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q7UMV5:DNA topoisomerase 1,Q7UMV5 DNA topoisomerase 1 (Rhodopirellula baltica SH 1) [pid:36.3%25%2C q_cov:100.0%25%2C s_cov:53.2%25%2C Eval:3.4e-73%2C partial hit],MGA_398;locus_tag=LOCUS_3880
sequence12	MetaGeneAnnotator	CDS	794	1582	.	-	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHWTDILMLSTFEDAYSVGLYHPIERTAGLIRMIFFAFAGIFSPMFSKYYYEKNHLKMKEIFDLSSNWILMFSMPLFIFFVLFPSDILSIFGDEFINDFSLIFLSVGILIQSYFGLGSSILSMAGFSNLNFLNVSIGLFLNIFFNWILIPKYGLNGAVIATSISLIILSIIRLLQIYSKFRILNLSINSLKPLLVGIVTFLVIDFIPFFNQPLQDTNFFKHVGKISLAFIFTSIVYFAIYGLIGISKAEKMIFKRLKDKVNE;locus_tag=LOCUS_3890;note=WP_010933859.1 sugar transporter (Chlorobium tepidum TLS) [pid:37.1%25%2C q_cov:74.8%25%2C s_cov:39.6%25%2C Eval:4.9e-35%2C partial hit],MGA_400
sequence12	MetaGeneAnnotator	CDS	1581	1778	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPTAETNIKGIENCKISLLNEVLNISLILIFENLLAKKNIAIIEIKEEIIVGKIIAAKGLEIK;locus_tag=LOCUS_3900;note=MGA_401
sequence12	MetaGeneAnnotator	CDS	1863	2165	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDERIRVVTVKGKVIENHFNKIDTEISSFKIFCTNQSDKRKITKAIKVLDKSAVLRLDSSIFWISLLLFGFLLTNRSTPVSNPNRAKTSEILITALAIE;locus_tag=LOCUS_3910;note=MGA_402
sequence12	MetaGeneAnnotator	CDS	2292	3143	.	-	0	ID=MGA_403;product=glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933862.1;translation=MKSDFLKAHILLLTWNEKKLTENCINSILKIDYPNFELTVIDNNSSDDSLEYLYKKFPQINFLKLEENYKFAEGYNQAIKRIDIEENEYLVFLNNDTIVSRNFLNQLVNSLQENPKHIISVPKILYADQSNLIWFAGARINLWLGLIYHIGIRKEDDSKFSFQSITDYATGCCFCILKSDFEKIGGFDSRYSFYCEDVDFSLKARSLNREIVYNPKSIILHHVSKSLGSNSFTKLSLKFKNQIKLFWNHANFFQIFTISIFWIIFFLPYNFLKYFLIRFKDVK;locus_tag=LOCUS_3920;note=WP_010933862.1 glycosyl hydrolase (Chlorobium tepidum TLS) [pid:39.6%25%2C q_cov:78.4%25%2C s_cov:77.5%25%2C Eval:1.7e-39],MGA_403
sequence12	MetaGeneAnnotator	CDS	3143	4210	.	-	0	ID=MGA_404;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405119.1;translation=MKILSIGPISPFRGGIAKFHQSLNIELSKSSTVEVLNFKKLYPNLLFPGKSQFDDSSKDFNSHRILKFYNIFTWFKGVQLINKFRPDYIIFHYWHWAFLPMFIYFSKKNSKIKKRIILHNVISHENIFFEKLFLKILLNNNDEFIVMNNYSYEIIKRLNPLARVNKIYHPIYNVENSKSIISTESSDTVLFFGLVRKYKGLDILIEAMNQVNNKIQLLVVGEFYDSKQKYLNLVKKLNLQNRVRIFDSYISEEKIQDYFNQVDLVVLPYKKSSQSGVLSLAYNFDKPVLVTDSGGLVDYVLKNKTGLISKSNPSSIAEKINLFFKNKENLFSKEDIKTLKIQMTWKNFVDNLNLK;locus_tag=LOCUS_3930;note=WP_011405119.1 glycosyl transferase (Salinibacter ruber DSM 13855) [pid:31.3%25%2C q_cov:91.3%25%2C s_cov:88.5%25%2C Eval:5.9e-43],MGA_404
sequence12	MetaGeneAnnotator	CDS	4213	5139	.	-	0	ID=MGA_405;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932009.1;translation=MNKISILIPVYNEQESIPILSQQLLDSFQNEFLYEVIFINDGSTDLSLNILKSVIEKNPSWKIVDLYRNYGKAIALQAGFEHSSGSLIATLDSDLQDDPSEISKLVDEINNGYDVVCGWKKNRKDPFEKKIASKIFNFFLRLFGGLRIHDSNTGIKVIKREVFSALKLYGGRHRYIPLLAKQKDFSVSEVIVNHHPRQFGKSKYGIGRYFEGFFDFLTILFLGKYIDRPLHFFGSIGFLSFSTGVLIEFFVLYLKFYQNHSFQQHVALLILGSILIIAGLQLFIFGLLGELFVEKSQKSNKYIKDIIS;locus_tag=LOCUS_3940;note=WP_010932009.1 glycosyl transferase family 2 (Chlorobium tepidum TLS) [pid:42.2%25%2C q_cov:97.1%25%2C s_cov:93.6%25%2C Eval:1.7e-69],MGA_405
sequence12	MetaGeneAnnotator	CDS	5139	5690	.	-	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLTIILFTVLVGCSSTIPEETLIFEIENENATIESLQVNYELVKGSGKLVAKGSYNFISSFIFESSRLNNLVVFKDFIGRKSFAIDSNEETVKLVDLRKNIEITSDQFTNEYPQFSGIFFEHIFIKKLLWGEKIEQADYPNLIISQEFNQEYGMQFLNQISVKNDSINQDFNLSIFSRNFE;locus_tag=LOCUS_3950;note=MGA_406
sequence12	MetaGeneAnnotator	CDS	5687	7294	.	-	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546646.1;translation=MFTQKKYLLVFLVILSACSVSREKVSFENNPLEEQIISKTQTESLENGINNFIDGMMFMEQGEYARAIIEFQEAIERGSNSSELFYYLSDGYWMIQKYEKSIFFSKRAIENSPDAIDYRISLGKKLIALNELDEALEVFLKASELNNSTGEILFIIGDIKLEKGDIDGALIYYREAYKKDKNLTLALEVAAKLALEKDHREKIEIAKELFISNVASPEYLRILIESIEGSDSNGYLLSLLNDFPGIETNPLINNLYNQIGFQFLREGKLDEAESYFLKSMNINSNDRFPLYYLSITYQEQGKFKESIELSKKYIQSFPNDRDGYINKIISYLNLQDYGEALNELNIVKEIFQNDFEINYLLGLVYYNLKQFTDSEFYYSQAFEIDNKSLPVMHGLAMVLDQNKKWIQSDEIYESLLKINPNDAQALNNYAYSLVERNEQLLMALEMSIKSNVIEKDNPSYLDTLGWIYFKTGDLKLAEEYIAQSLIFDENSAVVLEHYADVLVGLNEIDRAIIFYNKSLLIEENESIREKIENLE;locus_tag=LOCUS_3960;note=WP_012546646.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:24.0%25%2C q_cov:91.8%25%2C s_cov:96.9%25%2C Eval:6.5e-34],MGA_407
sequence12	MetaGeneAnnotator	CDS	7341	7823	.	-	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNIFEDRILAYLDGSMDFKERKEFEDLLNHNDSYKSLVNDIKNNISLMKKAEPLKVSKNFEERLQLRIESLSFSNDGKKSFFSSYPRQWIFSGLSVFGILVLTFLFFQPNSNLIVVDENIQNEQKNIIDSPSKNSNDEQIKELDQLDNFNGSFVNDKK;locus_tag=LOCUS_3970;note=MGA_408
sequence12	MetaGeneAnnotator	CDS	7829	8398	.	-	0	ID=MGA_409;product=RNA polymerase sigma24 factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405466.1;translation=MNNPFKLSDEKLVARFVNGDINAYKELVKRYKDKLFNFVMRYFNNREQAEDVVQETLIKLYTHAHYYKDIAQFSTWIYTIAKNNALTELRKNKAKKSDSMWTDDGKFIDIASSEIPLDEKVQNEIAVEKLNKYLLELPENFRIAVYLRDFEEHSYEEISMILEIPIGTIKSRINRGRIMLAEKLKSYKE;locus_tag=LOCUS_3980;note=WP_011405466.1 RNA polymerase sigma24 factor (Salinibacter ruber DSM 13855) [pid:36.6%25%2C q_cov:94.7%25%2C s_cov:95.3%25%2C Eval:5.2e-31],MGA_409
sequence12	MetaGeneAnnotator	CDS	8391	9389	.	-	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIFEINTDLLKKSKNLFLAGDNDFLYLFIKDKIKSIHPDSEIYIFDCSNKIELQEAIESLSNLTLFSNKKITILKNIDSISEKLINTFVEIFQNNLESENLILGVDNNFLSFDYRTKKNLLKSKNSITLSKNCQLIDISTPFESDMIRWISFFENEKNITISSKLKKDLVSIFGTNFHSIYNEITKISYLIESKIFSYDEWYQSISNSHKNKQLWEFNYAVLDKKLHDILLIGNSLYLQYGMNFIISSLFQIFEALFFNHLNDGTNVNPMHSSLKPNILKRVSLSHKNFEMLEIENALIALYEADKKQKQRRNLDDAEFVKLIVEIFSNE;locus_tag=LOCUS_3990;note=MGA_410
sequence12	MetaGeneAnnotator	CDS	9382	10818	.	-	0	ID=MGA_411;product=sodium:proline symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000107217.1;translation=MIELIFSLYLLLIIFVGIFSNKFIANKLDFLLAGRKLGPWVTAFSERASGESAWLLLGLPGAAIAIGYGEIWAVLGITIGIISSWFLVAEKLRDETEKYNAVTIPDYLEKKFNDDGTIKLISAGIITLFFSFYVSAQFHGAGKILEQIFGIDPIYGITLSAIIIIIYTLLGGLLAVAWTDLIQGFLMIGTLVILPTLGFLYLFESGTSFENILFASSDPIKNSIFSSLDSFSSMTLLALGGMSWGLGYFGQPHLLIRYMAIKSVKDVKIAKWIATFWAIPGILGAFLIGIVGLAYFGEDYFIGKDPETVMPLLASTLLPSWLAGLLISGAVAAMMSTADSQLLVSSSTISEDLGLSRLFKKRSTEIDLLKNTRLITTILGVIAYSMAIYSQITGNSIFGIVSFAWSGLGSSFGPAIILSLWWNKTSTKGVIAGLLSGSISTIIWGSNSFLKSIVTERLSSFIIAFLAIVIFSYIYKDE;locus_tag=LOCUS_4000;gene=opuE;note=WP_000107217.1 sodium:proline symporter ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:36.5%25%2C q_cov:99.2%25%2C s_cov:94.5%25%2C Eval:1.6e-89],MGA_411
sequence12	MetaGeneAnnotator	CDS	10815	11561	.	-	0	ID=MGA_412;product=undecaprenyl-diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57170;translation=MNNLIELFILGIIQGMTEFFPISSSGHLVIGQDILNISNLDATEEIIAHFGTLFSIIYFYRSSFFSRKHPSDFFHSKNLTKLVLATIPAIVFALVFDVESYFNIGFVEKALLINGVWLISATILTNTFKFDLTNKIALVLGIFQSIAILPGISRSGAVICAALILGIKKSEIIKFCFYMVVPATILSIFYKLIFSASGFSILSFESSVVLFSSSFIFGYLSLVFLIKILEKFSFIGFGVYCIIVSFLI;locus_tag=LOCUS_4010;gene=uppP;EC_number=3.6.1.27;note=P57170 undecaprenyl-diphosphatase (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:2.2e-29],MGA_412
sequence12	MetaGeneAnnotator	CDS	11554	12174	.	-	0	ID=MGA_413;product=laccase domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9PN78;translation=MIINFSSKFLIPNYTILFSNESFDNLNSSRKIFSMNQIHSNKISLLEEFNQNDKLDGLLAINSSSILSVKTADCLPIFIYHNSRNIFGILHAGWRGLSDGIIDNFIQLILNQNLSPSDFCAFIGPSICQKNYEVTKEMKNYFPDKFFKIVDKKLFLSLQDFTIENFSNFGINTLFCNECTYENKNYHSYRKNKTSKRITGIIYRNE;locus_tag=LOCUS_4020;note=Q9PN78 laccase domain protein (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:35.9%25%2C q_cov:90.8%25%2C s_cov:81.9%25%2C Eval:3.7e-23],MGA_413
sequence12	MetaGeneAnnotator	CDS	12164	13954	.	-	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLITTFLIITLAFTQSFVVNDASNYDEIVKDINKGRYSSALKKVEKYEVLDENLVLLKIKSLRGLKRYEDALKIHSSFSETFLNNDFLSLYFLEIGDIFADLQLYNFAFENYLKSNALNNDRKNDNIIYKRLSSTLQLGLDYQFLHSLELMELNQDNLSLIYLAQCFSKDNFDNYFSIFPKINSSTFNRELRSAYKFIQKKISNNSDSNRIGVVLPLTGENSNEANAFLKGLTLSNNSSNSRYQKEFIVIDNYGSEIKTIEAFRVLRDIYKVSAVIGPFNEKNLLSAAALYSRSDTIILSPFYTSEEVHKINKNVLLLNSSLKVKNQVLLNYLVKNFNDKDSFSLAIIAPDSDFGRREVDSILIEMDQLNIEPISVQFYNINGDIDLRSNFDVLREIAWEKKNEEEYQDFLGAEIDMLDSMFEIETDDLYSRFNISQEAEIDSSKFILDTIDAVYLPVSNNEMKFVATQISLSNLDTQLIGNDLWFDMEFLRQENISPHIQKMIYSSAYNPNYKIRNDYGNNNSLNYFFHYGYDISEFLKSALTISDLSSNSFENGMTRGFSFNLGSVNKSVNIYQFESNRLIKFSNNQNLNDN;locus_tag=LOCUS_4030;note=MGA_414
sequence12	MetaGeneAnnotator	CDS	13979	14260	.	-	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILLALCIFVSFGLLSLFFNQNSIKANFKYILNWIFGFLVLVIFDLFMEAIVFEALSWNGTNKNDWFFMLWWLLVSFWFIHGISALYFGKK;locus_tag=LOCUS_4040;note=MGA_415
sequence12	MetaGeneAnnotator	CDS	14265	14573	.	-	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNLNRNMLSIFFGIFFLFIGFVNNFWGNDPYFGFCIILTSLIYFDKVLIKLNQAISTKTVNMIKIVVGFLILWLALGVGEFFDKLALMIINFPLTFITGF;locus_tag=LOCUS_4050;note=MGA_416
sequence12	MetaGeneAnnotator	CDS	14570	15055	.	-	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEMSEIRLIPFDNNYRNDFFLLNKEWIEEYWELENSDKKDLLYPEIISQGGGEIFLVLEKNTVIGTCAMIKISSKSYELAKMTISKKYRGRGYSKLLMKASINFARNQKAEKIILISNRKLVIARQLYDKFGFKEVVLDSDKYSRGDVKMELNLQEQIL;locus_tag=LOCUS_4060;note=MGA_417
sequence12	MetaGeneAnnotator	CDS	15096	15602	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEFKITLENNYVRLVQTSEDHFQELYQIGSNPVIWEQHPNQDRWKKNNFRKYFDGGINNSEGCFTIIDKKINKIIGNTRFYSFDENKQSVKIGYTFISNVYWGTEINYQIKKLMMNYIFQFLDKVYFEIGKNNFRSQKSIEKLGGKKVKLQKKENYLYLIDKSKWKG;locus_tag=LOCUS_4070;note=WP_003020073.1 acetyltransferase (Francisella tularensis subsp. tularensis SCHU S4) [pid:44.2%25%2C q_cov:76.8%25%2C s_cov:73.0%25%2C Eval:2.1e-32%2C partial hit],MGA_418
sequence12	MetaGeneAnnotator	CDS	15670	16086	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYLEKSLTSNEEIKEVINYHWFVWLTPVIYFFLGFVFLPFSLFFTFVSIMSFLNLKFTDQGVTTKKSVKKTGIISVKTEELFISKTETVEMNQSFWGRIFGFGDVKLTGTGNSYLIFNTISSPLEVKKRIEELIDSK;locus_tag=LOCUS_4080;note=MGA_419
sequence12	MetaGeneAnnotator	CDS	16180	16464	.	-	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIPTEQRFVKYFKSKKKNLLGNEKEIIFKSFLPPGGYEDTFTTYYISINVYDKGNRLQKYWEGNNNMVDIIDIVNQTRDMGIEIIEDIKNEKE;locus_tag=LOCUS_4090;note=MGA_420
sequence12	MetaGeneAnnotator	CDS	16487	18322	.	-	0	ID=MGA_421;product=glutamine--fructose-6-phosphate aminotransferase [isomerizing];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG38;translation=MCGIISYKGTQNCYPILLNGLKRLEYRGYDSAGIVSLYNNQLLQNKRVGKVQILEQEILSSIKMNSNIGIAHTRWATHGKPSNENAHPHLDSLEDIAIVHNGIIENYSSLKDFLIKKGFSFNSETDTEVLVQLISYFIKNQNLEYLDAIYAALELVEGAFAVVILNKNFPEMLVGARKSSPLLLGIGKSEFFFASDASAIIEHTNQIVYLKDHEICIINGDNYEINDFRTRESIEKIVDTVHLEVEDIEKGTFDYFMHKEIHDQQKTIINTISGRIDNEHVLLSGLMSYWDNIVNSSKVYITACGTSWHSALIGKIFIERFAKIPIIVDYASEFRYNDSPIDSSTCVIAISQSGETADTLAAIKKSKEMGATTVGICNVPGSSISRETDCGVFTRCGSEIGVASTKAFTAQVTILYLLAIKLAQSKKSLSKKEIVQCLDFSSLSENISKVLIKEKNIKEVALKYCNASDFLYLGRGINFPIALEGALKLKEISYIHAEGYPAAEMKHGPIALIDENMPTVFLVSKDKSYDKILSNIEEVKSRNGKIIAITDSDDKKLSELCDDIISVPQSNEFIFGILSTIVLQLFAFFIAVEKGCDVDQPRNLAKSVTVE;locus_tag=LOCUS_4100;gene=glmS;EC_number=2.6.1.16;note=Q8KG38 glutamine--fructose-6-phosphate aminotransferase [isomerizing] (Chlorobium tepidum TLS) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-174],MGA_421
sequence12	MetaGeneAnnotator	CDS	18345	19166	.	-	0	ID=MGA_422;product=acetyl-coenzyme A carboxylase carboxyl transferase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJI7;translation=MSWFKRKEKNIIDGQKKDLPDNLWKKCSCGEILYIPELEINLSICHHCGFHFPYHLNDYISILFDTNPRRICSNITSTDLLNFKANKAYQEILDRSDKSSEAIESYFGEIDSKEVVVSLMNFKFIGGSMGSAVGEILKQSIIYAKGKKCPLIILCQSGGARMQEGAMSLMQLAKVSAYLKQFSDSGGLYISVLTYPTTGGVTASFGMQADITFAEPKSLIGFAGQRVIKQTTQQDLPEGFQTAEFLLEKGFIDQVVDRKNLKKQLSKTIALLS;locus_tag=LOCUS_4110;gene=accD;EC_number=6.4.1.2;note=B5YJI7 acetyl-coenzyme A carboxylase carboxyl transferase subunit beta (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.7%25%2C q_cov:99.6%25%2C s_cov:84.9%25%2C Eval:4.5e-63],MGA_422
sequence12	MetaGeneAnnotator	CDS	19163	19810	.	-	0	ID=MGA_423;product=tRNA threonylcarbamoyladenosine biosynthesis protein TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57409;translation=MNILAIESSQRNCQVSLKIGDRVISSDSIKNQKFSSEHLPVICEKLLNELDSNFKDLNCIGISIGPGSFTGLRVGLSYAKGLSKALRIPIVPLDTFDIILDDDFLRKNYPIHIIIHSHGRFIFYKKIVNDTQINNFTPILVSLDSLKLNVNEAYIIASKDDQEWVANFKDIKKKYFIQPSALKIIEMIKKVDLKNFNIDSNLTPNYIASFNLESK;locus_tag=LOCUS_4120;gene=tsaB;note=P57409 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:29.0%25%2C q_cov:95.3%25%2C s_cov:96.4%25%2C Eval:1.4e-15],MGA_423
sequence13	MetaGeneAnnotator	CDS	570	1709	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932781.1;translation=MRLILLFLRRFLFSRQSDVLFKATNYIIFFSLALGIGSLNIVISSINGFQNELDKKLANISGYFIIKHESKQYFQPVQFDLQDKNSIEPFLEGKILIKSKKNTQPALIQGYNTNALLKISFLKETIGPINDTNGIIIGDDLAENLNLSVGDKVIITTSENESPFKKDFFTISSIYNSGINEFDEFLIYSNLNTVQKLFSREDYLSGFTIFENKLISQMPDGLLLVSNKQKYRSLFEWLNAQKLPTIIIFGMIALVGFFNLIGSLNIQIFQKRKIIAILNSLGLSKNQLMSIFVYYSLLITLIGSIFGIFLSYVFIFLQNKLHFLKISGDIYFSIEYLPMEFNFMISVLLVMVSLMVAFLFTVYLIRRQLSFNLAKTLQL;locus_tag=LOCUS_4130;note=WP_010932781.1 hypothetical protein (Chlorobium tepidum TLS) [pid:24.0%25%2C q_cov:94.7%25%2C s_cov:96.2%25%2C Eval:1.9e-26],MGA_426
sequence13	MetaGeneAnnotator	CDS	1706	3181	.	-	0	ID=MGA_427;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCM7;translation=MENKSLIQIIAARKEKIQKILDLGINPYPYSFKAKHSTDFIIKKNSGKKTSLAGRIMSLRRMGKASFLNLQDMNGKVQLFISRDDVNSKTYELFKLLDIGDFIGVSGTVFITKTNMATLKIEKLELLTKSIRPIPDVKEKDGEKFNLVSDKEFRYRKRFVDLIINPEVKNDFIKRATIINSIRNFLNKNKYIEVETPVLQPVYGGANAKPFVTYHNALDQQFYLRIATELYLKQLIVGGFEKVYEMSKDFRNEGVDRSHNPEFTMLEFYQAYVDYHYMMDFVEKMFKEIAKDLRMKTIEIDNVKIDFSKKFHRKTMDELIKEHLNENVNLSSHDDLYSLCKKLNLKVKKTDSVAKLIDEIMRRKIEPHLVEPTYVINHPVEISPLAKVHRGHDKSFTERFELFIAGMEFANGFSELNDPIDQRNRFEDQSSKRNSGDEEAFPIDENFLEAIETGMPPTAGVGVGIDRIAMLFIGTRWIRDSIIFPTLKTLK;locus_tag=LOCUS_4140;gene=lysS;EC_number=6.1.1.6;note=Q8KCM7 lysine--tRNA ligase (Chlorobium tepidum TLS) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:96.1%25%2C Eval:3.0e-131],MGA_427
sequence13	MetaGeneAnnotator	CDS	3190	4098	.	-	0	ID=MGA_428;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X1R5;translation=MKFKRQLSDSFKDLEILFDFYSKDEISEKEFDSELSNVAKQIEKFEFNLLLNGKHDLSNAIVSIHPGAGGTESQDWALMLYRMYTMWIESKGFTFNSIDFQNGDEAGIKDCTFEVEGEYAYGLLQSEIGIHRLVRISPFDSNSRRHTSFASISVVPSIDDDIEIEIDQKDLRIDTFRSSGAGGQHVNKTDSAIRITHIPTGIIAQCQTQRSQHKNKEQALKVLKSRLYQVELDKKIEKEKNIEGEKKDIAWGNQIRSYVFHPYTLVKDHRTKFESGNIKSVMDGNLDDFIYSYLLEKMGKNK;locus_tag=LOCUS_4150;gene=prfB;note=Q9X1R5 peptide chain release factor 2 (Thermotoga maritima MSB8) [pid:53.3%25%2C q_cov:96.4%25%2C s_cov:78.9%25%2C Eval:4.1e-92],MGA_428
sequence13	MetaGeneAnnotator	CDS	4276	5766	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIKMNSADNNLKNKILDLMNRADFMTLSTSVFSHPSAANVYFANDDLDIYFFTFNPTRKAVQINFNPKVQIVIRPDGEEGIKELQIDGYASKIVNPSEKEKAKEMILKVTTAFEEYMNDQFLIDNDVVGYYKVSPTLIKYVDFYAEKQFEWLEIPENNFSIFSELKSKILNSLKYWVTIIRAPFLTATVVPVILGSVIGFSETGIFNWSLFWPVLLGASFAHIGTNTINDYFDHLSRNDENNKLFSPFNGGSRAIQSGLISPLSLVLFSYFCFALTIYFGCDLNNKLYGDYFAASPLMYIGIAGILLGILYTGYLRLSYNGLGDLAVFLGFGPLMVVGSNLVQNPNSDLIVSLVFSIPVGILIALVLFINCFQDYSADKSVNKNSWVVRLAGPNPKANYRKPFKVWRISMIIAFIIIGISSAIFNPLALIALLPIFLFNFANKKGLNWLLEWEKDNADLQKLPYELLIVNVSTIGIHFLTGLLLSLGFIISSLWI;locus_tag=LOCUS_4160;note=A9WBE2 1%2C4-dihydroxy-2-naphthoate octaprenyltransferase (Chloroflexus aurantiacus J-10-fl) [pid:32.3%25%2C q_cov:43.5%25%2C s_cov:67.8%25%2C Eval:8.3e-20%2C partial hit],MGA_429
sequence13	MetaGeneAnnotator	CDS	5747	6523	.	-	0	ID=MGA_430;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545037.1;translation=MNLFEIGFLKLSLTDLIDILLISAIFLYSYSYFKGTRGGQMLLGLLILFFAGFVVNILGFKATSWLLNLFQTVWVVVFVILFQPEIRRLLTAVGQNRLVRRLFQIERSSIREDIIISIDEIKKNKWGALLVFERENSLRSISSEGIKMNSLVSAELLVSIFNPSSPLHDGAVIIKNNIIESASCILPLSDTKSLNAEMGTRHRAAIGISEESDAIAVVISEENGKISVAENGLFISSNLSLDDLRGLLKEKMNDDQDE;locus_tag=LOCUS_4170;note=WP_012545037.1 membrane protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:39.8%25%2C q_cov:93.4%25%2C s_cov:94.1%25%2C Eval:6.2e-43],MGA_430
sequence13	MetaGeneAnnotator	CDS	6540	7382	.	-	0	ID=MGA_431;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082506.1;translation=MNISQFSSWLDSLNKHPLIMGILNVTPDSFSDGGKFLGLDSGYNHAMKMVDEGADIIDIGGESTRPFSSPVSIQEELDRVLPILRKIRSESDITISIDTTKADVAKEALLNGANFINDISGLSFDNQMIKVVQDFNCPIVIMHIQGNPKTMQINPSYENVINDIKAYFISKINFLNQSGIRKNNIILDPGIGFGKSVEDNFKILSNVHEFVEMKYPILIGASRKSFIGKTLDTTEDGRLEGSIAANLFALQSGCHIFRVHDVIETKRAFMIHNKILNTKE;locus_tag=LOCUS_4180;note=WP_004082506.1 dihydropteroate synthase (Thermotoga maritima MSB8) [pid:51.5%25%2C q_cov:92.5%25%2C s_cov:92.8%25%2C Eval:3.4e-69],MGA_431
sequence13	MetaGeneAnnotator	CDS	7386	9284	.	-	0	ID=MGA_432;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74C66;translation=MAKSKKPIPKKVNQTKQSKSSNSGLIWLLVILFVMLSLSLLPNEQNTEIEITYNDYKKLLSENLIKEASIESDNSFHGKLEFPTSLTNKDGAKFDDRKNFVVYLPSDYSDQLEIWDQKGIVYNFEGEKIDWTSWLLGFAPWLLLIAFWIFMIRRMQGANSGMNNVFSFGKSKAKMFSSTNKKVKFTDVAGCTEAKEELQEVVSFLKNPRQFQKLGGKIPRGVLLVGPPGTGKTLLARAVAGESNVPFFSISGADFVEMFVGVGASRVRDLFSQAQENAPSIVFIDELDAVGRQRGAGLGGGHDEREQTLNQLLVELDGFNNESNIIVMGATNRPDVLDSALLRPGRFDRQIVVDVPDINGRLEILKIHTQKVKINTKSVKLLDIARGTPGMVGADLANLVNEAALLASRKKKLSIDNEDFEEAKDKVIMGVQRKSMVLSDNEKKITAFHEAGHAIVAIFSPEADPVHKVTIIPRGRALGVTMQLPIDDKHGYSKTYILSRLAVMMGGRAAENIVFNEMTTGASNDIERATMIARKMVCEWGMSDVMGPMSFGKRNEEVFLGRDFHSSRDYSEDTAKKIDNEVLKIIHNAQNTATKILKKHIKLLHSMANDLLKKETIDEKDIKLLTESYSSS;locus_tag=LOCUS_4190;gene=ftsH-2;EC_number=3.4.24.-;note=Q74C66 ATP-dependent zinc metalloprotease FtsH (Geobacter sulfurreducens PCA) [pid:55.3%25%2C q_cov:94.3%25%2C s_cov:95.1%25%2C Eval:2.1e-183],MGA_432
sequence13	MetaGeneAnnotator	CDS	9320	10651	.	-	0	ID=MGA_433;product=tRNA(Ile)-lysidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H020;translation=MAFEEKILKNLVDFKIDRSSKILVAVSGGIDSLCLAHYLVNQNYNFSVCHINHKYHVLADEMEKLVSNFCKEHSIPFLISYINSEKIDSNIESVFREKRYDILNNLADEHNFDHIFTGHHYNDQIETFLFRFFSSSGLNHLFGLKKQFNKVFRPMINIYKEEIINYARNHSIEYIDDPTNLDLKFSRNFIRNVVVKDLNKISSNIYTPFENFEERIRESNEVINHSTDYFLQKNNLSKDSTFLKFGKSSFLNLPILIQLNIVNRILNSKETNYFTKNDFSELKSFFNKKITSSEYEIMGHKILIDYEHIFIINPTFSFQERFYIAEKGEKIDNSSFSFQWNFSPNKNLQFSKNTEFIDGKHIEKTLVIRSPKKSDQFQPLGSKNYKSIDQFQKDNKISFDKKNNSLVICNNDKIICLAGQRIDDSFKITDSSKRVVKLSYIMK;locus_tag=LOCUS_4200;gene=tilS;EC_number=6.3.4.19;note=A6H020 tRNA(Ile)-lysidine synthase (Flavobacterium psychrophilum JIP02/86) [pid:26.2%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:8.7e-42],MGA_433
sequence13	MetaGeneAnnotator	CDS	10641	11267	.	-	0	ID=MGA_434;product=putative metallo-hydrolase YqgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P54501;translation=MLKYHRIVSELLEENTYIVYQDKKCLIIDPGLGFKLFKQIIETEQLTPLAVLCTHAHFDHVAGVSECLNEYNIPFYLSKKSKPVIDNFELMSNYWGINAVKPEVTNWISSDTNKLSIDNFDIQIFHNSGHSPGCISFIFDNLIFCGDLIFKGSIGRTDLPGSNPLDMDSSLRSFKKTFSNFNYKILSGHGDESSTIEEFKNNPFLNGI;locus_tag=LOCUS_4210;gene=yqgX;EC_number=3.-.-.-;note=P54501 putative metallo-hydrolase YqgX (Bacillus subtilis subsp. subtilis str. 168) [pid:35.2%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:2.7e-29],MGA_434
sequence13	MetaGeneAnnotator	CDS	11267	12331	.	-	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000775723.1;translation=MDRKVVHIVGTGTIGEPLIGMLCEMKSKLGIDEVTFHKHSPTTADLPKIKNLIRKGARLSVLKERIDEFKAIGLEPDFSMEEAIARSSVVIDCTPKGFGNLNKQEFYMPYKDRVKGFLAQGSEDGFGKKYARGINDHVISLEDQFLQIVSCNTHNIASLVQTLALNNGPDNLIEGKFVCIRRSSDISQSSGFVPSPTVNNHKDEVFGTHHAKDANALFATMNLDLNLFSSAMIVNSQYMHVVWFNLKVKEATSKEKVIKLLRDNDRIALTEHMSANEIFSFGRDQGFYGRILNQTVVVESTINVKNGNEICGFCFTPQDGNSLLSSIAATIRFLNPHSFQDKINNLLPFFYDRI;locus_tag=LOCUS_4220;note=WP_000775723.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:34.7%25%2C q_cov:94.1%25%2C s_cov:93.3%25%2C Eval:3.1e-44],MGA_435
sequence13	MetaGeneAnnotator	CDS	12443	13081	.	-	0	ID=MGA_436;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228656.1;translation=MNLALFIITIFLFFINLIAIIFFTPMVPDQEWAQKIFYLHVPAAWSGFLAYFFVMISSILYLLKRDLKYDRLALASAEVGTLFIALVLITGPIWATPIWGKPWVWEPRLITTLLLFILYVGYFILRNIGLYRQRAALICSILGIIAFIDIPIIFTSVTFWAEEIQLHPQVEMNKQPSGILNYFLFSLFVFTFLMVTMVNLKNKILTLKDSKL;locus_tag=LOCUS_4230;note=WP_011228656.1 cytochrome c biogenesis protein (Thermus thermophilus HB8) [pid:39.6%25%2C q_cov:88.2%25%2C s_cov:83.3%25%2C Eval:2.2e-34],MGA_436
sequence13	MetaGeneAnnotator	CDS	13082	13741	.	-	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSLIKNEIIIEIKSSFNLFYISFFALSSLILLFFSMPLTFLNDPNILSSFFWIIISFSSIKVVENSFAREKEYGIYDLIYSSPIDGHLFFLSKLLVFTSVLLIIEFFIFLFYSLLNPMISISDLTILFPLFLIANISIISLAIIVYLMTSSERVKSFLFPLIFFPLLTPILINSSRIFTNVYIDGNISSLPSIMILLSYSLISVILGVQFFNTLIKK;locus_tag=LOCUS_4240;note=MGA_437
sequence13	MetaGeneAnnotator	CDS	13731	14336	.	-	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVKKLYKSFGSNHVLKNLSIDFPLGKIIMIIGNNGSGKSTLLNCLSQTTEIDRGSINKNGFKTFFLSDKDNVIGNLTIQENIKIITSLYNTDFNNDIFNKYVNQLNLNEQLDKQLKNLSRGNLQKNKMLMALCTNWNYLLLDEPFSNLDDDSINTQKHLINKLKSANRTVIFSTHNHHLFKEIADEIYLIQSGSMQNAI;locus_tag=LOCUS_4250;note=WP_011476017.1 ABC transporter ATP-binding protein (Lactobacillus salivarius UCC118) [pid:31.4%25%2C q_cov:97.0%25%2C s_cov:68.5%25%2C Eval:3.8e-22%2C partial hit],MGA_438
sequence13	MetaGeneAnnotator	CDS	14413	16392	.	-	0	ID=MGA_439;product=cytochrome c biogenesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000997623.1;translation=MISQIGSLTLSLAGILSLFNFFLFVIYKRSNDQRYLQVIERSLLSQCICIIFANLCLLNELLVSNFNLQYVAQYSSYETPLFFKMTALWAGQAGSLLFWSSITSFYSIFFILYTLKKIPSIKNISFLILNVILAFFLMLNNFIANPFEPVSSDIIVSNGNGLNPLLQNVTMAIHPPMLYLGFIGTTIIFVMAIAGLISNELSNKWIYSMRKWSLFTWTFLTAGIILGGYWAYNELGWGGYWAWDPVENSSLMPWLLLTAFIHTIIIQERKGILKSWNFFLASGSFILVILGTFITRSGIISSVHSFTAESLGPIFFAFLILLILISLGTYYVNKSQLIVNDKIESIKSREGGFLINNFLLVIMCFTIIWGTLFPILSEAWNDEKIHIGQSYFNALNVPLGILLLILMGMGPLLSWGNTSRESIIKKFRIPTFFSFVFGAAYLLIYLSKFDFYVFLTLIGIIFTSTAIVSEFYRIFLKHRKSAPFFDSLLSTFSRNRHRSGGYIVHIGLTLMFVGFIGKAFEVEKEFSLKPGEEIYFSNYIFKLNDISSEARGNHFAFISDFDIVSSSNIFIGKLFPEKRVYFYWNSDPEQRQPHSELDINSTLSKDIYSIFSSYDAERNVGFFKIMINPLVSWVWIGSIIMILGAILAFWPSGIRNGNI;locus_tag=LOCUS_4260;gene=ccmF;note=WP_000997623.1 cytochrome c biogenesis protein (Leptospira interrogans serovar Lai str. 56601) [pid:30.8%25%2C q_cov:97.0%25%2C s_cov:98.4%25%2C Eval:3.8e-95],MGA_439
sequence13	MetaGeneAnnotator	CDS	16392	16799	.	-	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFYLTLLLSMILVVSWTIYLTQYDEKNLSSIKYFTVSELSKNVSQINKMKLGGRILPDSIKINPDNLLEVSFYVYDSENTVLVEYNGIRPDLFKDDAEVVVTGSYRDNRIIAEELQTKCASRYEGDLKNKSSI;locus_tag=LOCUS_4270;note=Q8PA33 cytochrome c-type biogenesis protein CcmE 1 (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:33.0%25%2C q_cov:73.3%25%2C s_cov:62.2%25%2C Eval:5.5e-07%2C partial hit],MGA_440
sequence13	MetaGeneAnnotator	CDS	16799	18382	.	-	0	ID=MGA_441;product=methylmalonyl-CoA mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_035249802.1;translation=MSKNRESEKNFNSLSGKVLKEFYTGNKESLKPGQFPYTRGIHSNMYRGKVWTMRQFSGFSTPEETNQRYKYLLKNGQTGLSVAYDMPTLMGYDPDHELSVGEVGVCGVSVASLDDMEILFDGIDLENISVSQTINGPAIILFAFYVALAKKRGIDISKLRGTLQNDILKEYIAQKEWIFPPNPSIKLVVDIIEYCSNHMPLYNPVSISGYHIREAGSTAGQELAFTLNNGFTYIDSCIKRGLDIDSFAHRLSFFFNAHQDFFEEIAKYRAARRIWANKLKNEYGAKNEGSLKLKFHTQTAGCSLTAQQPENNIIRTAYEAMSAVLGGTNSLHTNSLDETLALPSEKAAKIALRTQQILAFETGVPNVADPLGGSWYVEKLTDEIEEEASNYFEEINQMGGTVEAVEDGYFQKKISESASDFQELVDSKKRIIVGVNEFVEEDEKIDIEILKISHAAETDQINKIKSIRNNRNNSRLQDKLSLLKKACIENENLVDYIIDVAEHGGTLGEIVDLMKSVYGEWEESFSF;locus_tag=LOCUS_4280;note=WP_035249802.1 methylmalonyl-CoA mutase (Desulfitobacterium hafniense Y51) [pid:58.1%25%2C q_cov:95.1%25%2C s_cov:91.7%25%2C Eval:4.0e-169],MGA_441
sequence13	MetaGeneAnnotator	misc_feature	18379	19311	.	-	.	ID=MGA_442;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to O67036:1-deoxy-D-xylulose-5-phosphate synthase,O67036 1-deoxy-D-xylulose-5-phosphate synthase (Aquifex aeolicus VF5) [pid:47.2%25%2C q_cov:98.4%25%2C s_cov:48.4%25%2C Eval:3.4e-81%2C partial hit],MGA_442;locus_tag=LOCUS_4290
sequence14	Aragorn:1.2.38	tRNA	276	350	.	-	.	ID=Aragorn_21;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0200;note=Aragorn_21
sequence14	MetaGeneAnnotator	CDS	409	2748	.	-	0	ID=MGA_444;product=Lon protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YKD3;translation=MEADRKQYPVMPLKNTVLFPQQVIPIYVGREKSLKLIEDLPEDNKYLIVVAQQDGSIEDPKEEDLYSYGTLALVLKTFDMPDNSKSAIVQGVDRVKILKFESNDSYFLADIERIPEALNTPDLEIEALAKKLKNSFTELIKISPNLNEEHAGMLSNINRPSRLADRATSLLSVSNSEKQEILEELDIKKRVKNAISLLQKEIQRIKLGEEIQSEVQDEISKTQREYYLREQMKAIQKELGEDNQTVELDDLKKKIDDAKMSKQALEVAEKELERLSRISPQSPEYSVARTYLEWLVELPWNKSSKDSLNIQKADKILNEDHYGLQKVKERVLEYLAVRSLKKKVTKDDTVRGPIICFTGPPGVGKTSLGKSIAKSMGREFVRISLGGVRDEAEIRGHRRTYIGALPGRIIQSLKKAQTNNPVFMLDEIDKLGSDFRGDPSSAMLEVLDPEQNHAFSDHYLEVDFDLSKVMFIATANYPDNIPAALYDRMEMLEFRGYIDEEKINIAKKHLIPKQIEENGLTSKQVKFSDTGIKEIIRSYTRESGVRSLEREISNILRKVAVELVNNRIKTITITKAVVNEYLGIPKFLSDLAERTTKSGVVTGMAWTPSGGDILFIESSKMRGKGNLTLTGQLGDVMKESASAAYTYVKSHTKNLGLDEDFFEKLDVHVHCPAGAIPKDGPSAGVSMFTSLVSLLTGKPVQSRLAMTGEITLRGNVLPVGGIKEKVTAAHRAGIRTIILPYANKRDLEEIPENIKKDLSFHFAKEVMDVIKVAIPNLKN;locus_tag=LOCUS_4300;gene=lon;EC_number=3.4.21.53;note=B5YKD3 Lon protease (Thermodesulfovibrio yellowstonii DSM 11347) [pid:52.5%25%2C q_cov:99.2%25%2C s_cov:95.6%25%2C Eval:4.4e-239],MGA_444
sequence14	MetaGeneAnnotator	CDS	2846	3379	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRNFIIFIVFFGCFLVSYIAIHGTKNIEGRTSYKNISFILPDEWIFNESQSQFRLFEIILADNSDFSIVIFSNIGGDATQNFERWKKQFQSIDFLETNVINLKDKKISTIKINGIFNLPNPNNPTIIDEIRNNYSLLGGVIEFPNSIYFIKATGSEEKILENENYFSNFIQSFRLE;locus_tag=LOCUS_4310;note=MGA_445
sequence14	MetaGeneAnnotator	CDS	3372	4235	.	-	0	ID=MGA_446;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64XQ0;translation=MIPSNQHKPKISIRIDENFKQVKQLVQKEYLNTVCVEARCPNIYECWQRKTATLMILGDICTRSCGFCSVKTGKPSWNDPLEPLRVAHAVKKMSLRHVVITSVDRDDLKGDYGASIWAQTITQIRKMNPQCTIEVLTPDFKGEPKALNIVFEALPNIFSHNIECVERISRQIRPQANWKRTLGVLKLAKEFGLTVKTGIMVGLGETIDEVKKTMDEALSVGVEIFTIGQYLQPTKKHLIVQKYRSLKDFELLKDYGKEIGFKIIESGPLVRSSYHADEQAKLFYNNA;locus_tag=LOCUS_4320;gene=lipA;EC_number=2.8.1.8;note=Q64XQ0 lipoyl synthase (Bacteroides fragilis YCH46) [pid:51.6%25%2C q_cov:96.5%25%2C s_cov:95.1%25%2C Eval:3.0e-76],MGA_446
sequence14	MetaGeneAnnotator	CDS	4232	4840	.	-	0	ID=MGA_447;product=octanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GYW1;translation=MWDIKDHGLLSFNDTLDLQRLYVNQVKLDRTKKFLIIVEHEHVYTIGKNSNIQISEINNISVIKTERGGDITYHGPGQLVVYPIFNLNQFKIGPKKYIQFLEEIIICCLKTFNIDASTQQKLPGVWIKDRKIASIGVRILQGITFHGLALNVKTDLNYFDKISACGIDNLVTTSISKELGKDIAVDDIKDSIVKNFQKLMHI;locus_tag=LOCUS_4330;gene=lipB;EC_number=2.3.1.181;note=A6GYW1 octanoyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:37.9%25%2C q_cov:98.0%25%2C s_cov:89.7%25%2C Eval:2.0e-34],MGA_447
sequence14	MetaGeneAnnotator	CDS	4845	6134	.	-	0	ID=MGA_448;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J255;translation=MNQYDIIIIGGGPGGYTAAFELSEMGKKVAIIDKQPIGGVCLNWGCIPTKSLLKHAELYELLNNLDQFGMSAENINFDFSAIQANNQNAKVRLSKGLNYLVKKYQIDFISGTASFVDRNTISINNNDLISGDYIIIATGSSPKKLDYFQGALSAKDIFELPSLPKSITIIGAGAIGVEFAYFFNALGSKVDLIEAQENILPNEDFEVSAWVKKIFQKKGINIFTNENISNTNTECTLVAIGVEGNIKNLNLESVNIRLSSNQHIWVNEHGQTSVENIYAVGDVIGPPWLAHVASAEGSYVAKHISGLEAIPIEYNYIPACTYCKPEIASIGKNEQFLKSQNIFYRVGKVFLNSNGKAVAMNEAEGFIKILVDNQNQILGAHIVGSSATEIISQFSIALSNQLKIEDLIKAIFPHPTISESIHEALLQLK;locus_tag=LOCUS_4340;EC_number=1.8.1.4;note=Q3J255 dihydrolipoyl dehydrogenase (Rhodobacter sphaeroides 2.4.1) [pid:36.1%25%2C q_cov:98.6%25%2C s_cov:96.2%25%2C Eval:1.7e-87],MGA_448
sequence14	MetaGeneAnnotator	CDS	6136	6708	.	-	0	ID=MGA_449;product=GTP cyclohydrolase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SH52;translation=MSDKEKKIQNNTAQLLELIGEDPSREGLLKTPLRVAKAWSFLTKGYEEKIDDIVNDALFESNSSDMIIVKNIEFYSLCEHHMIPFYGKAHIGYVPDGKIIGLSKLARVVDLFARRLQVQERLTNQIAKTIQDILNPKGVGVIMEAKHFCMLMRGVEKQNSIASSSSMLGIFKDYDSTRNEFLKLVEQSNI;locus_tag=LOCUS_4350;gene=folE;EC_number=3.5.4.16;note=Q5SH52 GTP cyclohydrolase 1 (Thermus thermophilus HB8) [pid:60.5%25%2C q_cov:93.2%25%2C s_cov:80.5%25%2C Eval:3.6e-64],MGA_449
sequence14	MetaGeneAnnotator	CDS	6708	7376	.	-	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405037.1;translation=MSEFQEKLYLVFAGIFIASLVACNLIFQKFFTWNFLGLNFELSVGIIAYPVTFLITDLISELFGRKRANQVVISGFFASVFTTILIVVAMNSTAASWSPVDSATFNKVFGLSAPAFLASMVAYLVAQFIDVRLFHFWKRITRGKYLWIRNNASTIVSQLVDTSLVLLILCFAGAISWDRFTDLLFMGWLFKALVALIDTPIIYFCLWVLKDKIQPASYLEEI;locus_tag=LOCUS_4360;note=WP_011405037.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:46.6%25%2C q_cov:94.1%25%2C s_cov:78.2%25%2C Eval:2.1e-46],MGA_450
sequence14	MetaGeneAnnotator	CDS	7373	7795	.	-	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNNKTYLTKIFYFCAAHQYGHDEWTKEKNYDVFGEDMFVHGHNYTLYVTVTGEIDPSTGFLVDLGHLKKVVNEEVIQKLDHRQIEKDVDWFKDKQPSSENLVEFIWNVIENRLKGCILYRIRLQETPTIYTDYYGGVQ;locus_tag=LOCUS_4370;note=WP_012258499.1 6-pyruvoyltetrahydropterin synthase (Chloroflexus aurantiacus J-10-fl) [pid:42.0%25%2C q_cov:91.4%25%2C s_cov:47.4%25%2C Eval:5.8e-25%2C partial hit],MGA_451
sequence14	MetaGeneAnnotator	CDS	7807	8442	.	-	0	ID=MGA_452;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GYL6;translation=MLKKDKIDFIIQKLDEIYPKVSPPLNHENNYTFLIAVLLSANSTDNSVNKVTPHLFSLANNPKKMTLLSYEKVYSIIKPCGLGPAKAKAILELSEILINKYNSLIPKNFQDLESLPGVGHKTASVVLSQKFNLPAFAVDTHVHRLMYRWGLSNGKNVTQTEKDAKRLFPMRLWNKLHLQMVYYGREYCPAKNFNPEKCPITSVVGRRSLFK;locus_tag=LOCUS_4380;gene=nth;EC_number=4.2.99.18;note=A6GYL6 endonuclease III (Flavobacterium psychrophilum JIP02/86) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:4.4e-67],MGA_452
sequence14	MetaGeneAnnotator	CDS	8449	9714	.	-	0	ID=MGA_453;product=type I citrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941767.1;translation=MSKIKEQLSKKIPDWRYNYRQLLDEKGSKVISEVTISAAYEGMRGVKGMICDTSSVSADKGLHIRGKHILELVELIPEEILYFLLIGDFADSDSLTNIQHDLKERSTVPDYVWNVLQNMPKDSHPMAMFNTAILSMQRESQFAKAYDLVISKGDYWETTLEDALNIIAKIPAIAAAVYRLRFEKGNIIKNSESLDWSESFLQMTGMDYSPDMLKMMQLYLMLHCDHEGGNVSTFSALTVNSALSDLYYSLSAGLNGLAGPLHGLANQNNLKFVLDIVEEFKGVPSEEKLRAFCWDRLNSGKVIPGYGHAVLRCPDPRFTAFMNFGESHIKDSEVFETVSRLFKIVPDVLKEHGKAKNPWPNVDAASGSLLHYYGIKEFQFYTVLFSMSRALGICSQIVLARAMGLPLTRPKSLTYEALNKF;locus_tag=LOCUS_4390;gene=gltA;note=WP_010941767.1 type I citrate synthase (Geobacter sulfurreducens PCA) [pid:40.2%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:2.7e-85],MGA_453
sequence14	MetaGeneAnnotator	CDS	9728	11560	.	-	0	ID=MGA_454;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931909.1;translation=MNQPSTLRRILSLILVYWPMLLISTIAALFFVVFNSASIWITATMINNILIDFDQMIKENTLLLSSDSLSINDHLKLLSNRFLLKGTAIETIWSVSIALVVVFGLKNIALYIKNISLSIAQYRLLRDLRNRLYGHFHYLSLSYFNKNKSGELGAVLIADIENMKSSFGSTFQKMFVEPLNILTILSLLFIIDSRIALLALVIVPVSGTVIYFISQSIRRRSRRSQNQLAGISAIVSETLRSMRIVKAFVMKNYEISKFHRETSKYYSLMINKEKIRLISAPINESLGAGVAAILLWIGANEVLSPNPTISSEDFIRFILLLFSLWAPIKNLTNVVNEIQNGLASADRVFNILDIKSDINNIDNPIIKKAFSQKIDFKNVSFSYEKDEVIRNVSFSASKGEIVAIVGSSGGGKSTLVDLIPRFYDVTDGEILLDGENIKHIELHSLRSLMGIVTQDTFLFNDTVAANISYGLDIDQSIIEDAAKAANAHDFILKMPEGYSTYIGENGVSLSGGQRQRIAIARALVKNPPILILDEATSSLDTESEKNVQEAIEKLIKNRTVIVIAHRLSTIKNANKIIVLDKGKIIGQGSHEELIEKNSTYKELYNLQFQN;locus_tag=LOCUS_4400;note=WP_010931909.1 ABC transporter ATP-binding protein (Chlorobium tepidum TLS) [pid:38.6%25%2C q_cov:85.6%25%2C s_cov:84.7%25%2C Eval:6.3e-105],MGA_454
sequence14	MetaGeneAnnotator	CDS	11557	11976	.	-	0	ID=MGA_455;product=acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000555719.1;translation=MNITIRQAKTKEDYNLSLEIRRKVFIEEQSVPENIEIEFEDKSIHFIAFVDNLPVGTSRWRRTTQGIKLERFAVLKDFRKMSIGSKMFQVILSDISNEKMIYLHSQENVIEFYRKLGFKESGDKFIEADIIHQKMYYSP;locus_tag=LOCUS_4410;EC_number=2.3.1.-;note=WP_000555719.1 acetyltransferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:38.6%25%2C q_cov:86.3%25%2C s_cov:87.5%25%2C Eval:1.7e-16],MGA_455
sequence14	MetaGeneAnnotator	CDS	11998	12756	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKQSPMVIKIFFFLSFLFSQEQFSESRLETLKNGIHQLVSNENSRAILLVHGYYPPGWKTIHHELVEPLNYLSQNNIRTFLFKYDWTRCPDEIGKELSKNIEALLQQFPKIEKWEIVGHSMGGTSVLVANQNFRPVNKDITFHTVATAVNIVENKIPIWIRFIRKFQGFERCDYNINSLNYEIENGFPSELIEWRNLQDYDSQYKLYPFDVYDKKIKNSVVYIFPDSINGERVGHTKSLYFSVLEIVRKFN;locus_tag=LOCUS_4420;note=MGA_456
sequence14	MetaGeneAnnotator	CDS	12730	13500	.	-	0	ID=MGA_457;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875851.1;translation=MRLFSWNVNGVRAISQKGFFDWLDHISPDILCIQETKAHFDQLSDDLQSIHGYHSFWHSGERKGYSGVATFTKEKPLYVQEGLGIEKYDREGRVLITEFENFLLYNIYFPNGQKDDIRLKYKMDFYDDLLSIVKEQVESGNNVIIAGDWNTAHKEIDLANPKANQNYSGFLPQERAQLDDFVAAGFIDTFRLFHSEPERYSWWTYRFGARQRNIGWRIDYFFVNESMVSHIKDANIHEDVMGSDHCPVSIELSNNF;locus_tag=LOCUS_4430;note=WP_010875851.1 exodeoxyribonuclease III (Methanothermobacter thermautotrophicus str. Delta H) [pid:56.0%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:5.8e-86],MGA_457
sequence14	MetaGeneAnnotator	CDS	13542	13853	.	+	0	ID=MGA_458;product=putative monothiol glutaredoxin-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05957;translation=MDFKEEFKKIIDENNIVLFMKGTKDMPVCGFSKTVVNLLNHYGVDFKDVNILEHEDMRPSLSALSGWPTFPQLFVKGTLLGGCDIAVEMHNNGQLLDALDVND;locus_tag=LOCUS_4440;gene=grxC2;note=O05957 putative monothiol glutaredoxin-2 (Rickettsia prowazekii str. Madrid E) [pid:54.9%25%2C q_cov:88.3%25%2C s_cov:85.0%25%2C Eval:4.5e-25],MGA_458
sequence14	Aragorn:1.2.38	tRNA	13909	13981	.	+	.	ID=Aragorn_22;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0210;note=Aragorn_22
sequence14	MetaGeneAnnotator	CDS	14201	14959	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNKHLIILLFSTLFSQTHILPETNAGMISFSHDRHVDFFGEEKFIRNSYKNSINLGYFYNQNIGFDLSIGSSNFDKRNEYTFLDGETFNFSKAFRSENEKLLEKDFIFGATYYWVGSEKNPLPLDLSIGAYFKNSTYENQALNDLGQDYFGKTFGIRLSVFKEYIDENIRIIPRITLNRLNEKNIYVLDPITNDNTSFKNSYYHLELSMPIVFDQKKWNENTSTPFFIEPMIINKYGNTHLSISFGFLFD;locus_tag=LOCUS_4450;note=MGA_459
sequence14	MetaGeneAnnotator	CDS	14989	15858	.	-	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLYNLRYYLFFVCNKDFKKMMKKLLFLSILVGSLIGCSPSNNSKSEDVIQSNPNKNVQSYQKSQNNVVFRDSKGNILNQSQRDSLVNAITVQTLRTTNKETGNTEYILYEKYEDLRGYIDDSIIDNLIEEATILKTQGRGALIQKRVADDWLNKEIPNGEILLIDGSTKELNSFKNNLMVLNFWYINCGPCIEEMPDLNQLVKEYEDQPINFLALTFDTVEDVQNLLLSTAFDYEIGSISREFMFQFTPVAPTHFIVDQRGVVKEILVGAYPDIKQRLKDLIEKNKNY;locus_tag=LOCUS_4460;note=WP_011205249.1 thioredoxin (Burkholderia pseudomallei K96243) [pid:33.3%25%2C q_cov:41.2%25%2C s_cov:78.8%25%2C Eval:1.6e-13%2C partial hit],MGA_460
sequence14	MetaGeneAnnotator	CDS	15949	16542	.	+	0	ID=MGA_461;product=glutathione peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8A0Q0;translation=MGTNLLKMNYSIIIFFALLILVLLSGFSMQKIIKNNDNQKASSNFYNLQATSLDGELIPFNSFKGKKVLIVNVASRCGYTYQYEGLQKLYELYGDKLVIIGFPANDFLFQESGSNSEIAEFCETNYGVTFPMSEKITTKGRKQSPVYQWLTNSKSNGWNNQKPTWNFCKYLIDEEGNLIAFFDSKIKPMSEEITKLL;locus_tag=LOCUS_4470;note=Q8A0Q0 glutathione peroxidase (Bacteroides thetaiotaomicron VPI-5482) [pid:54.9%25%2C q_cov:77.2%25%2C s_cov:85.0%25%2C Eval:1.0e-43],MGA_461
sequence14	MetaGeneAnnotator	CDS	16548	17348	.	-	0	ID=MGA_462;product=zinc transporter ZupT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18AU0;translation=MDINNVIIGFVLATLAGLSTGIGSLMGIFSKLDNTRFLSLSLGFSAGVMIYVSFVELLQLSFNSLNEIFGFRFGALVSVTAFIMAILIMLFIDQLFDNRSIGDFVSSSTKNKKQGHLLRTGIFSALALAIHNFPEGFATFTAALYDPAIGVTLAIAIAIHNIPEGIAVAVPIYFATKSKKKAFWISLLSGIAEPIGALMGYLIFRSFINEAVFGITFAFCAGIMVYVALNEQLPVSREYGKPSDPIIGVSVGMIVMAVSLILMNTA;locus_tag=LOCUS_4480;gene=zupT;note=Q18AU0 zinc transporter ZupT (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:52.1%25%2C q_cov:97.7%25%2C s_cov:99.3%25%2C Eval:4.8e-70],MGA_462
sequence14	MetaGeneAnnotator	CDS	17387	17734	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFIKIVVSALIIFLASEIAKKNTLLGAIIISLPMASLLSITWLYIETKDIDRIVSFSQNIFLMIFPSLSFFIIFPWLLKKDLGFGLSIFLSLAIMVVLYFSLNLLYKKIGISI;locus_tag=LOCUS_4490;note=MGA_463
sequence14	MetaGeneAnnotator	CDS	17736	18251	.	+	0	ID=MGA_464;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942963.1;translation=MKTIIAIFLLISFIFSQKNDEMKTVEYVDINQFMGKWFVISIVPNRIESGAKNASDTYKLLQDGSIDITYEAEKDGSKKMIKQKGTIVDKKSNAEWKIQMTKPYIPLMKFPFKIILLDDSYKYMVVGYPKNKMGWIMSREKKMDLNVYENILEDLKSFGYSPEQFVLIEHD;locus_tag=LOCUS_4500;note=WP_010942963.1 membrane protein (Geobacter sulfurreducens PCA) [pid:36.6%25%2C q_cov:83.6%25%2C s_cov:76.2%25%2C Eval:4.0e-21],MGA_464
sequence15	MetaGeneAnnotator	CDS	34	537	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIKAPEFVMRQWYKHVVGIETTSTHPTKDHAWNEISGRYVPYEDFYEPSDFRKQSNDNKQASEGLIDDQKMAKRLWQEAQNTSISNYEKMLDLGMAKEQARSILPLTVYTKVWWTASFQSIMNFIELRDEATSQIEIQEYAKALKEIMMETFPETSKIWFEVYNQ;locus_tag=LOCUS_4510;note=Q5SJB8 flavin-dependent thymidylate synthase (Thermus thermophilus HB8) [pid:42.3%25%2C q_cov:92.2%25%2C s_cov:52.6%25%2C Eval:1.7e-26%2C partial hit],MGA_466
sequence15	MetaGeneAnnotator	CDS	534	1700	.	+	0	ID=MGA_467;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403871.1;translation=MKYIGPDFCNVFEGLSDEELLIQKTAHEFVKNEFLPLVVDAYNQGTFPKKLIPRMGELGFFGSTLPQKYGGNEISQLAYGLIMQELERGDSGLRSFCSVQNGLVIYPIYQYGSQEQKDRWLSSLCSGETIGCFGLTESNHGSDPGGMKTKAIKDGQDWLISGSKMWITNGSIADIAIVWAKDEEGIVRGFILEKGMKGFSASDIHGKMSLRASITSELAMDNVRVPDSNRLPFVEGLKGPLSCLTQARFSIVWGTLGAAIDCYETALKYSSDRVQFSKPISAFQLTQQKLTQMIQEITKAQLLSLQLSHLKENNKLDFSHISLGKLNNVDIARKCAKLSREILGANGIMEEYSIMRHLMNLETVSTYEGTHEIHTLIIGEKITGQSAF;locus_tag=LOCUS_4520;note=WP_011403871.1 acyl-CoA dehydrogenase (Salinibacter ruber DSM 13855) [pid:53.3%25%2C q_cov:98.7%25%2C s_cov:96.2%25%2C Eval:5.3e-117],MGA_467
sequence15	MetaGeneAnnotator	CDS	1678	2262	.	-	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLNLDKLELDTKWILSGKNSFLYFERTETTIDIALEDFNQKENQGKIVIADIQEKGRGSFSKSWHSSPYKDLTFSIILGYKNQFNQSLVDETCYAIKNFLQLYGLESIIKAPNDILIGNKKLAGVLLSKKTFNRLAYQTLSVGININSSVELKNYPFEATSLCLELGKAVERESCLLELINQIDRAIKRQIVQ;locus_tag=LOCUS_4530;note=Q813S9 bifunctional ligase/repressor BirA (Bacillus cereus ATCC 14579) [pid:30.5%25%2C q_cov:84.5%25%2C s_cov:53.9%25%2C Eval:2.9e-11%2C partial hit],MGA_468
sequence15	MetaGeneAnnotator	CDS	2253	2825	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTKLSVFSTLAFILISCAGTSPSISDVAKSSENQNNKQGQKQEVSVEKFTIQEPESPMVGVNVFEPYMIKRGDILTRIALNEYGNASMWREIYAWNKEIIGDNPDKIYPYNFLSLKRKVSEAKNCDINYFQYEIQPGDTAWNLAQRVYGDELAWVVIYMDNSELISSNNGILQPGTFFKMRKNLDPCS;locus_tag=LOCUS_4540;note=MGA_469
sequence15	MetaGeneAnnotator	CDS	2917	4404	.	-	0	ID=MGA_470;product=methylmalonyl-CoA mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943914.1;translation=MKKKKFGTYPFDKGIYKRMYQDKLWTMRQYSGFSSTEESNNRYLEIIQNGGTGLSVAFDLPTQMGYDSDHEMALGEVGKSGVPISTIEDMEAIFDNINLEEISVSMTINSTAAILLAFYIAVAKKKSLSLAKLRGTLQNDILKEYIARGTFIYPINHSLRITSDIFEYCQKNVPQFNPISISGYHIREAGSTAIQELAFTFSNAITYMEIAKQNKIDLKQLAKKFSFFFNSHKDFFEEVAKFRAARIIWAKIIKEKFGIDDIEAQLCRFHVQTGGSTLTAQQIDNNITRTSLQCLAAVLGGAQSIHTNAKDEAISLPSKENALTALKIQQIIAYETGITSYIDPVGDSSLVSDLTKKIVKETNKKINEIIKKGGTIHCIETGMIQKEIEESAIKYQNQIENKERIVVGVNAFETELENYELVNSAHQDNLNRIRELKLFKENRNLGKVNQSLEQLKKTSLSSKNLMDSLILCVENLCTLGEISDVLRDTFGVFEI;locus_tag=LOCUS_4550;note=WP_010943914.1 methylmalonyl-CoA mutase (Geobacter sulfurreducens PCA) [pid:50.3%25%2C q_cov:98.2%25%2C s_cov:88.2%25%2C Eval:1.0e-134],MGA_470
sequence15	MetaGeneAnnotator	CDS	4607	4972	.	+	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHKEQSSIVYFISRNELKNFYSDEVQSSMCYYNFKDLNSLQMPSVPFLEKVFSLRFKNIIDLNSEFNRFVHPIIFFAPLWTVKLGFHSDISSNYYNVVLDSKNKTNYFETFELIKKFILI;locus_tag=LOCUS_4560;note=MGA_471
sequence15	MetaGeneAnnotator	CDS	4969	5751	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYYKTIFTNNLVLFDEDIFNYEEILPWELIHQIPNFFEKKVSGYNNIKNVIFDESSGPIIVDPSATIEPFSVLRGPLYVGKYCLVKSHSNIANSIINRNCKISGEVHSSIFQPFSNKAHEGFIGHSLIGSWVNLGAGTTTSNLKNNYSKISIKWGESLIQTDSQFLGSIIGDFCKTSIGCNLNTGTIIELGCNVVSQSFPPRHIKMFSMFYKDKTHRISFEDFCDSLESMMERRSLKLLETQKNNLNELYKNIDSHLN;locus_tag=LOCUS_4570;note=WP_001127234.1 glucose-1-phosphate thymidylyltransferase (Leptospira interrogans serovar Lai str. 56601) [pid:38.4%25%2C q_cov:78.1%25%2C s_cov:57.5%25%2C Eval:1.4e-34%2C partial hit],MGA_472
sequence15	MetaGeneAnnotator	CDS	5772	6179	.	+	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNIISSFDDEVITPCCDEEISTSEITAKLRCPRCKTILKKRKFLPFLEYLMENGHVENLDFFDFDLYSQDKESLDSDDEEIDLDKYEVKKDSLNIYEDDSKYGSQLSESDTSIDESLATSSDWTRFATGDSEE;locus_tag=LOCUS_4580;note=MGA_473
sequence15	MetaGeneAnnotator	CDS	6231	7004	.	+	0	ID=MGA_474;product=electron transfer flavoprotein subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877797.1;translation=MKIAVLTKAIPSYESLIRIDTSSKWIDDSLVNYVVNESDAYALEEALKIKESLADDSEVVVVSMGSEDKCSKIIKDGLAKGADRAILIDSQEKISDPLSIATLISDCIKDEQFDLVFSGLQSDDLGSGQVGVLLGEKLKMSTATLAIETQIQPSAIRVKRELESGWFQWLTIPLPASISIQSGINNPRYPSLKGIMGARNKEVAKHNSNQFSNNQLQSMVELYIPSNEKQAEKIEGDSKSVASRILEILKNDLRVIQ;locus_tag=LOCUS_4590;note=WP_010877797.1 electron transfer flavoprotein subunit beta (Archaeoglobus fulgidus DSM 4304) [pid:41.4%25%2C q_cov:97.3%25%2C s_cov:98.0%25%2C Eval:3.0e-42],MGA_474
sequence15	MetaGeneAnnotator	CDS	7001	7972	.	+	0	ID=MGA_475;product=electron transfer flavoprotein subunit alpha/FixB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_001255686.1;translation=MILVVLENQRGKIHPFSVESVVAGQKIAKSLNQPLSIVCVGDNIDNIHESAKQFECNELILASHPLLKTYSADGFSKIMIDLIKSYSPKYCIFGHSYMVRDYVPRVSANLSIPFISDIISINLSSQNIQFSKQVFNAKLLSRIENESTNGCLLSFQSAAFSSDELLQGAPKKVTNFEINLNDSDIRSTTEEEFQESSSGVDLSTAELIVSVGRGIDNQDNIPIAEDLAKALGAELASSRPVVDMGWLPPFRQIGSSGQTVSPKLYFALGISGAIQHVVGMKGSKNIIAINKDEEAPIFEIADYAVIGDLLEIVPLLTEELRKR;locus_tag=LOCUS_4600;note=YP_001255686.1 electron transfer flavoprotein subunit alpha/FixB family protein (Clostridium botulinum A str. ATCC 3502) [pid:32.5%25%2C q_cov:99.4%25%2C s_cov:96.7%25%2C Eval:1.1e-53],MGA_475
sequence15	MetaGeneAnnotator	CDS	7990	9840	.	+	0	ID=MGA_476;product=Fe-S oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001018338.1;translation=MFTILEKILLITFLSSAISFFLYHLYVRLSIVFKGKGSFAFDHLLLRLKRLFDEVLLHKKVISKQRTIVGFLHLFVMYGFIFFGLITLNHFLIPFDIKLFSPSFKLNYFYFVGLPWAILCLIGILGLAYRRFFIKPKFLGEKSKTSAVVTLFIFLLMITYLYDEFHLWNSLLQYKVNWWLHSFVIGSFLFLIPKSKHMHLVLSPFNIFLKPFDNPDHAPVPIDLEASEEELDNLLLDLSRLSKNQALDIFTCVECGRCTEVCPANRGGGILNPKYHFILDLKNPMLENQDVNVVDKINVEAGWECTTCQACTEVCPVGNQVEKADEIRSFQVLSTGDVPQEYQKLLMNLQETGNTEGKNSSEILKELPEYTAEKEIVLWLGCFAKHAMDPNFVKSVRNFTKILDSASISYGVLSNEQCSGDPANKLGDKLTYQLLMDQNVEALKGVKKVVSMCPHCVVNLQKEYRKYHEINYEVKHHTQMIAELLEDNRININPGSLEKVTYHDPCNLSRTLNETEAPRKLLKASAPNYFELEEHGKETLCCGAGGALWWKKDTGEGRTHLLRAEQVIQSKTDTVVTGCNFCYGMMNQGIGPLTPSDQEKIQVKDIADIVAENLSN;locus_tag=LOCUS_4610;note=WP_001018338.1 Fe-S oxidoreductase (Leptospira interrogans serovar Lai str. 56601) [pid:29.6%25%2C q_cov:98.5%25%2C s_cov:98.4%25%2C Eval:3.0e-78],MGA_476
sequence15	MetaGeneAnnotator	CDS	9837	10082	.	-	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITINLEDFLIDGMLKEDNFRNKIESIDWTQYKNQKVIIKGCTSVPVPTWAYLIITSRLALHSKKIYFGEPCSAVEIYKKN;locus_tag=LOCUS_4620;note=WP_011964474.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:33.7%25%2C q_cov:98.8%25%2C s_cov:51.2%25%2C Eval:1.2e-09%2C partial hit],MGA_477
sequence15	MetaGeneAnnotator	CDS	10083	11276	.	-	0	ID=MGA_478;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q815Z3;translation=MDEIRKHFPILNIQNRGKKLVYLDNAATSLTPNSVLDSINEHYTTYRASVHRSVFELGEIVTNKYEESRNNIAQYIGAKPNSIIFTKNATESLNLVADAWGFENLKKNDIILLTNMEHHSNIIPWQVIAKKTGAILRYIFFDKNGELNLNEIENELKKGVKILSVTHASNVLGTINPIKEICALAHQYNTLVCVDGCQSTPHLKIDVSDLDCDFFAFSGHKMLGPTGIGALYAKEEILNQMSPYQTGGGMINDVGLYESEWTEIPHKFEPGSPMTAQVIGLSSAVNFLKEIDWESNHGIAEYVINKLREINGIEIYGQPKERTPIVSFNIQNIHSLDLAHLLDYEGITIRSGHMCCKPLMDTLKISGCARASFYFYNTLEEADIFVEKLKKSINILL;locus_tag=LOCUS_4630;EC_number=2.8.1.7;note=Q815Z3 cysteine desulfurase (Bacillus cereus ATCC 14579) [pid:50.1%25%2C q_cov:98.2%25%2C s_cov:97.0%25%2C Eval:1.5e-111],MGA_478
sequence15	MetaGeneAnnotator	CDS	11276	11800	.	-	0	ID=MGA_479;product=putative Fe-S cluster assembly protein SufT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036085.1;translation=MENKNFTFSRDINVYSVPDGTLTLLKQNQQGIIVQSLGDNFTIIVEGNMYQVKGKDADAIGEEIIEIDSNNFASEDEIWNVLHTCYDPEIPVNIVDLGLIYDCSINSKEDGVDIHIKMTLTAPGCGMGPVIAGEVKQKLEALSGAKNVDVELVWEPQWNQEMMSDAAKLQLGLY;locus_tag=LOCUS_4640;note=WP_011036085.1 putative Fe-S cluster assembly protein SufT (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:42.9%25%2C q_cov:95.4%25%2C s_cov:94.0%25%2C Eval:9.1e-37],MGA_479
sequence15	MetaGeneAnnotator	CDS	11790	12215	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIVSNLAEIRENFSLLTGQDKLLYIIDLSKKLEIIPENYKTMDNRVKACTSQTWIKLENPEKINMVADSESSVVKGLLRILQVAFDGASNKEIKSFINSFENPVQIFEWLNIGPTISSQRQNGFIGAINIILEKTSDGK;locus_tag=LOCUS_4650;note=MGA_480
sequence15	MetaGeneAnnotator	CDS	12208	13383	.	-	0	ID=MGA_481;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964480.1;translation=MEKIKSSSSQIFQDLGYPKTNLENWKYTSSKFFQNYSFQKNKIHFPQEINRQNNTIYFINGVLDDTSWENFSLKKNISLEKIDSPVDESTILSSQNFIKESMFHLSLSGVQEANYWRIISNNPLEINIVYIFDTSIENNMIASLNVFSIGDNTEIKINEKKISLNSSCLGISLSNFFCSENSNLSHSLVTNDNNLDKSLSFYNYKMQKNSNLAIDNVNHSSNFDKKFFEIDLDGEGSDAEVNILNLVKGTQHYDNNILVNHNAPNCSSRQKVNNILDNQSTAVFNGKVIVLKNAQKTDSEQSNKNLLLSEQSKAHSNPQLEIFADDVKCGHGSTTGALDDSSIFYLRSRGLSEEESRKILIEAFAKEIVEDFSNSGLESDCNIIISKWING;locus_tag=LOCUS_4660;gene=sufD;note=WP_011964480.1 Fe-S cluster assembly protein SufD (Flavobacterium psychrophilum JIP02/86) [pid:29.8%25%2C q_cov:98.7%25%2C s_cov:92.2%25%2C Eval:1.6e-44],MGA_481
sequence15	MetaGeneAnnotator	CDS	13385	14125	.	-	0	ID=MGA_482;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964481.1;translation=MLVLENIRAGIEDKEILKGINLEIPEGEVHVIMGRNGSGKSTLANVIAGNEAFEISSGSIHLNNVDITEMSIENRSLQGIFLCFQYPVSIPGVSMAYFLQQAVNAHRKNQGLDDIDAVEFLKNSKEILGELQLDNSFLKRSVNEGFSGGEKKKSEILQLLTLNPKLAVLDETDSGLDVEALRIVASGVNKFRNKGNSVLIITHYQRLLDYIQPDVVHIMIDGKIIKTGDMELVKEIEEKGYSWLEE;locus_tag=LOCUS_4670;gene=sufC;note=WP_011964481.1 ABC transporter ATP-binding protein (Flavobacterium psychrophilum JIP02/86) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:6.3e-82],MGA_482
sequence15	MetaGeneAnnotator	misc_feature	14127	15213	.	-	.	ID=MGA_483;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011141370.1:Fe-S cluster assembly protein SufB,WP_011141370.1 Fe-S cluster assembly protein SufB (Gloeobacter violaceus PCC 7421) [pid:80.6%25%2C q_cov:99.7%25%2C s_cov:74.7%25%2C Eval:1.8e-172%2C partial hit],MGA_483;locus_tag=LOCUS_4680
sequence16	MetaGeneAnnotator	CDS	1037	2026	.	-	0	ID=MGA_485;product=LPS biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016469.1;translation=MKRILVIRMSSIGDIVLGTSFLSSVKNQFPDAKIDFLIKKEFAPILSKHPQINRLICYEKAKGFKGLINLIIELRSKKYDSVFDIHNVFRSRLIGLFLRNVKRIQKPRWKRLLLFYFKKNLFSSSFSHIEMYHTLLPNIMEFPLTNLHLEQSDLDAAKSILDQYNIHKPFIALVPGAAWEQKQWPKEKYNTLIDNLNKNKSFNFVILGGPNDTICDEIESKKSLINLKGKTSLLEAMSLLKLAQFTIGSDTGLVHISEALGTPVGMILGPTSRETGAGVNHANSFNFQVDNLSCRPCSQNGKRKCYQSKQFCMENLEPQLIAKTVLSQL;locus_tag=LOCUS_4690;note=WP_011016469.1 LPS biosynthesis protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:32.6%25%2C q_cov:98.5%25%2C s_cov:97.6%25%2C Eval:1.7e-38],MGA_485
sequence16	MetaGeneAnnotator	CDS	2029	2751	.	-	0	ID=MGA_486;product=Sec-independent protein translocase protein TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KD48;translation=MKTGEMSIFDHLEELRWRIFKSLGSIFLFAILTFNFADTLVELLIAPTKNISQQLALQVLTIQGMFVLKWNLAFIGGIIFSIPIITIQLWKFISPGLYQKEQKILLPIILSAFACFIIGGVFAYKIILPFSLDFFSSMITANIQNNFSINYYFSFVLALILGSGLVFELPVISFLFSSIGLLTPDFLRKYRREAIMIAVILSAIITPPDPISLFILAIPICLLYEISIFISMLANKIFNN;locus_tag=LOCUS_4700;gene=tatC;note=Q8KD48 Sec-independent protein translocase protein TatC (Chlorobium tepidum TLS) [pid:41.6%25%2C q_cov:96.2%25%2C s_cov:95.1%25%2C Eval:5.0e-44],MGA_486
sequence16	MetaGeneAnnotator	CDS	2748	3701	.	-	0	ID=MGA_487;product=GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869690.1;translation=MCSEMKRKQLTGLLEAIQKNDFLAISDLMNAVEKNQFSREEVSKAIFSKSQSALKIGITGPPGAGKSSLMNKLIPLLRNQGLSIGVIAVDPSSPVSGGSFLGDRVRITNSMEDNQVFIRSMGSRAELGGVTELAEDFSDILAFSGKDIIFIETVGVGQSEYGVYEIADLTLFVFVPESGDEIQLLKAGILELADVFVVNKSDRKDANLLVKSITNIMSSTKSNFSDIPIIKTSCKQEEGIDELSNVIASSFKSRFDNANIVARKKVRFERRIKSLVEKEILKEFWTDTRLKKFEEIISKDNKTISPYDLIKKIKDVK;locus_tag=LOCUS_4710;note=WP_012869690.1 GTPase (Thermanaerovibrio acidaminovorans DSM 6589) [pid:39.4%25%2C q_cov:95.6%25%2C s_cov:96.8%25%2C Eval:3.1e-53],MGA_487
sequence16	MetaGeneAnnotator	CDS	3785	4078	.	+	0	ID=MGA_488;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9RUS3;translation=MDRHKQQIKRDRQDLKRRAVNAQNKSKMRTLIKKVMKDSDSTSVQETYTDAISFIDKMASKNLIHKNNAARKKSKLTIHVNSLSSKKAPKKAVKEEE;locus_tag=LOCUS_4720;gene=rpsT;note=Q9RUS3 30S ribosomal protein S20 (Deinococcus radiodurans R1) [pid:45.2%25%2C q_cov:81.4%25%2C s_cov:88.0%25%2C Eval:2.3e-10],MGA_488
sequence16	MetaGeneAnnotator	CDS	4081	4800	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKRIFPVGSSGFIFFQNLLSKIQEETVNRRENIIYLLITLIPYLYYLERNVMSPQFLYFDWTSFLIHWGTIILIYGALSLLWHQYPMFSMFRAVRVDSQSNFVLLFVIITAVLGLFSMQIFALSLIYLVLYLLYRSQKLKTVLLSLLLLIIVFIVGIQNENPILSSTVLVSFPVLIWYLLFKKESTMIAFRKALALFLILFISSKEFSAGIFFMFYWFILSQYAYFVRNEKFRWLEFD;locus_tag=LOCUS_4730;note=MGA_489
sequence16	MetaGeneAnnotator	CDS	4805	6199	.	-	0	ID=MGA_490;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81E25;translation=MSTTTRENWTSKRNFILAAAGSAVGLGNIWKFPYIAGENGGAAFLFIYIICILMIGIPILNLEILLGRETQKNPVGAFKQLSTNPLWQYVGGLGVIASFTILSFYSVVGGWSIAYMLEAINGTFKGFENPQVAGEFFNLKNSNANWVLGFHTLFFLTTVAIILSGVRKGLEKVSRYLMPLLLLILFFLVFQGLFLPDSEKGLEFLFTPDWSKINAQTFLLALGHAFFTLSLGMGAMMTYGSYLSKKDDIVHASNIIAFLDTFIAILAGVAIFTVVFSSGYSPTAGPGLVFHVLPPLLAKLPLGYIMSIMFFLLLSIAAITSAISILEVSVAYLMDEFSFSRKKATSIMAIAVYLAAIPCALSFNVLSDVTLNIGAKPYTIFDIFDYLASNIYLPLGGFFIALFVGHAWGVDKAIKGLLMGDSNNSRFGNSIFKNATVVSVFGFLVKFISPLLIFLVFLYQFGLI;locus_tag=LOCUS_4740;note=Q81E25 transporter (Bacillus cereus ATCC 14579) [pid:40.2%25%2C q_cov:98.7%25%2C s_cov:99.1%25%2C Eval:5.2e-93],MGA_490
sequence16	MetaGeneAnnotator	CDS	6201	6620	.	-	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRIVKFLSILLCFSLVISQEKTDFRTKEEQQKDPKIALKKAMVFPGYGQIYNDQWWKGALILAGEVWAIYNFDQYRQEVKKYTPDFPYSSEHYISQRNRFAWIAIGLYFYSLVDAYVEAHLDNFDQLVIENDPLNTKE;locus_tag=LOCUS_4750;note=MGA_491
sequence16	MetaGeneAnnotator	CDS	6608	6970	.	-	0	ID=MGA_492;product=reactive intermediate/imine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939916.1;translation=MSNFKSPNPVGPYSMFRELSSGGWITSGQIPIDPISGNLNNDSHQSEVIQVFNNLEAVLSDHNKSINDVKKFLVFLTDLSITPLVNAEIEKRVNKPFPARSTIQVAGLPMGANVEIECLG;locus_tag=LOCUS_4760;note=WP_010939916.1 reactive intermediate/imine deaminase (Desulfovibrio vulgaris str. Hildenborough) [pid:40.0%25%2C q_cov:99.2%25%2C s_cov:91.5%25%2C Eval:4.5e-17],MGA_492
sequence16	MetaGeneAnnotator	CDS	6980	7411	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877618.1;translation=MQFQKINHSYIVHVEEGEKVMQTLTNFCIEKGIHSAQISGIGAVRNIDIGAYDITNKDYIHRIFEEILELLSFQGNVAIKDGEPFLHAHITLGTHDMEVYGGHLFEMEVAAVGEFIIHDFQNKNTLRQYNDDIGLATLKLCNL;locus_tag=LOCUS_4770;note=WP_010877618.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:40.5%25%2C q_cov:91.6%25%2C s_cov:93.5%25%2C Eval:3.8e-22],MGA_493
sequence16	MetaGeneAnnotator	CDS	7411	9951	.	-	0	ID=MGA_494;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG04;translation=MKSSEIRESFIAFFESKAHKRVKSAPVLPIGDKSLLFTNAGMNQFKSIFLNTEQPKDLRVVNSQKCIRVSGKHNDLEEVGRDGFHHTFFEMLGNWSFGDYYKKEAIQWSWELFTEVWKLDKHKLWVTVFEEDDEAYEIWKECTDIDPSRIIRSGAKDNFWEMAETGPCGPCSEIHYYVGDNPSNQNANMVNHSSEYWELWNLVFIQYNRLKDGSMEELPKKHVDTGAGLERLCSVLQQKNSNYQTDLFSEIISEIESISQTSYNDHEVSYNVLCDHIRMLTFSIADGIIPSNDGRGYVVRRVLRRASKFAMNLGVKDPILYQLVQALVTVMSSHYPEIKEKQQYIEQTILNEEKSFLRTLEKGVLQFEKIISESNKTIIDGIDAFKLYDTYGFPLDLTQLMAEERQMKVDIEGFNVEMKKQRELAKSGQKFISDNIDFDWQLNFDKDHSIFEGYLNDQIETKIVNYAFEDENLILVLYQTPFYAESGGQIGDTGIIKNSDFSARVLDTQKNGEFILHFCQIDSGAIGDNLSVNCAIDLTRRKKIKNNHTATHLLHQAVKDTLGNHVNQAGSLVDPDYLRFDITHPNKISKNEINQIEEIVNQKINDSINVETKIKSLDEAKKEGATALFGEKYGEMVRVVSIGNFSKELCGGTHVSNTAEIEKFKIKHEKAISSGVRRIHAISSTEVDIFLQDLKNSQKNQILAEQEREIQKELQKQLVESVDFSQILSQEILMNGIQTIISEVHLGNAGDLRVIDQKIRNNFSKGLIILFTKVDDKISLSVSLSSELISDSFNAGLLVKFIATPLGGGGGGKNDFAMAGGISSNNSEIEIIQSIKDSIEKIMEKE;locus_tag=LOCUS_4780;gene=alaS;EC_number=6.1.1.7;note=Q8KG04 alanine--tRNA ligase (Chlorobium tepidum TLS) [pid:42.8%25%2C q_cov:96.8%25%2C s_cov:97.3%25%2C Eval:2.2e-191],MGA_494
sequence16	MetaGeneAnnotator	CDS	9999	10571	.	+	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNITIIALFLVLFSSNLFAQNNAIQSMKVSSKDNGTVIEVFSEKNIPLENVSAWYSNDWFYLTFFDSSIDFENGQDFLKGDIKDIEIQNNDESGQIAVKLAKNIESFDILDSSRLTTSFLLRYSQEASKKIISKNVDDDDIEIASSSWKPSGSNMLPILGAIIALSDISNPNTFVLGSITALLHFVLKL;locus_tag=LOCUS_4790;note=MGA_495
sequence16	MetaGeneAnnotator	CDS	10566	11510	.	-	0	ID=MGA_496;product=proline iminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NKP2;translation=MNLFPRATVFNSFHLDVSDLHSIFVEESGNPNGKPIIFLHGGPGGGIDPSYREYFNPQKWRIIMFDQRGCGQSLPYAEIRENTTWDLVEDIEKIRKYLNIDQWVVFGGSWGSTLSLAYSQTHPDSCKALILRGIFLVRKKEIDWFYQSGAHNIFPDKWEGFLKPIPEHKRDNLMSAYYDILTGEDRQKKIEAAQAWSTWEGSSVRLILEDEFISHFTDASFAEAFARIECHYFMNNCWFPTDNFLIENIDKIRHLPAVIVHGRYDIICPVIQAWDLHQAWPEADLHIIPDAGHSIYEEGIKNKLLEYTEKYSEL;locus_tag=LOCUS_4800;EC_number=3.4.11.5;note=Q7NKP2 proline iminopeptidase (Gloeobacter violaceus PCC 7421) [pid:57.7%25%2C q_cov:99.4%25%2C s_cov:99.0%25%2C Eval:5.0e-112],MGA_496
sequence16	MetaGeneAnnotator	CDS	11489	12721	.	+	0	ID=MGA_497;product=NAD(P) transhydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056541.1;translation=MLSEISSYNLNLIKNQLYRINIIDENFYLCNLSGLFCMKVGVLKENKNGEKRVAIIPQTVATLSKKGYHFFIEAGAGANSFFSDTDYEKAGATICDLSTIYQSNIIIKVNAPTLDEINQISKNTLLISLFQTIRDIELVKALKERECSAFSLNLLPRTTLAQKMDILSSQANIAGYKAVIIGADHLGKYMPLLMTAAGTISPAKTLIIGAGVAGLQAIATAKRLGAQVEAFDVRPEVKEQVESLGAKFVEVESSSDDGVGTGGYAKETSDEYKAKQQEIMKERISVSDLVITTALIPNRPAPKLITTEMVEMMKPGSIIMDLASENGGNCELTSPGEIVNHKQIFIDGNTNLPSTMPTHASQLFSKNIEAIIDHCHGENGFHLNKEDEIVSGMLFLDNGEITHQPTKEAL;locus_tag=LOCUS_4810;gene=pntA;note=WP_011056541.1 NAD(P) transhydrogenase subunit alpha (Thermosynechococcus elongatus BP-1) [pid:49.9%25%2C q_cov:88.8%25%2C s_cov:95.1%25%2C Eval:2.2e-92],MGA_497
sequence16	MetaGeneAnnotator	CDS	12721	12990	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000434762.1;translation=MDVNLITIFILAIFVGNEIINKVPPTLHTPLMSGSNAISGIAIVGALLAIRVGGEMGTYIGLAALICATINVVGGFLVTDRMLKMFKKK;locus_tag=LOCUS_4820;note=WP_000434762.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:64.8%25%2C q_cov:97.8%25%2C s_cov:93.6%25%2C Eval:1.5e-25],MGA_498
sequence16	MetaGeneAnnotator	CDS	12987	14342	.	+	0	ID=MGA_499;product=NAD(P) transhydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DL03;translation=MNLFYLISAVCFILGLKRLSHPRTARSGNFLAALGMLIAIAATLASSNVLDTNLILIGVGVGSLIGFLFATRVQMTEMPQMVAIFNGLGGAASALIASAEFLSNPNSPYIIVCLSVFIGSLTFTGSFIAFGKLQGIISGRAITFKGQQLFNALIALASLVLILTPNLLASDLMTAFTVIIILALILGIGLTIPIGGADMPVVISLLNSYSGVAAAATGFLIDNQALIISGSLVGASGLILTNIMCKGMNRSLANVIFGAVGAESSSGSSAEGKEMNIKSYSTTEAAMILDAAEKIIIVPGYGLAVAQAQHITREVADTLESKGKKVYYAIHPVAGRMPGHMNVLLAEANVSYDLLKDLDEINPEFEDCDVALILGANDVVNPAARHDQSSPIYGMPILNVDKSKTVIINKRSMNPGFAGVQNELFGYDNSIMVFGDAKDMLNSLLKEIKEL;locus_tag=LOCUS_4830;gene=pntB;EC_number=1.6.1.2;note=Q8DL03 NAD(P) transhydrogenase subunit beta (Thermosynechococcus elongatus BP-1) [pid:51.7%25%2C q_cov:99.6%25%2C s_cov:98.1%25%2C Eval:3.9e-122],MGA_499
sequence16	MetaGeneAnnotator	CDS	14379	14870	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000157809.1;translation=MSSVSLYELADEFKIALEELTDIEDEYILDTLESIQGEFKLKSINVAKFIRNLEHTAEGIKETERKQADRRKNLENKILRLKEYLKSNLENVGLDKIENDELVITIQKNPHKVSIIDEQLIPKEYFEIQEQISINKTKIKEDLKNGKAIPGCEMIQEKRLNIK;locus_tag=LOCUS_4840;note=WP_000157809.1 hypothetical protein (Streptococcus mitis B6) [pid:27.3%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:1.6e-10],MGA_500
sequence17	MetaGeneAnnotator	misc_feature	1	886	.	+	.	ID=MGA_501;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010931870.1:penicillin-binding protein,WP_010931870.1 penicillin-binding protein (Chlorobium tepidum TLS) [pid:40.1%25%2C q_cov:97.6%25%2C s_cov:37.6%25%2C Eval:9.6e-54%2C partial hit],MGA_501;locus_tag=LOCUS_4850
sequence17	MetaGeneAnnotator	CDS	883	2160	.	-	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932422.1;translation=MTTINKYLLRESLIPFLLSLLTITLVLFLQFLIRSFDRFLGKGLDLTIIVEYLFLNLSWIIALSIPMSLLLSSVMTYGRMSEQNEITALKSAGVNFWSLIRPSLYFGALVGFLLCLFNNFLLPEMNFKARLLAKDIYQKKPELIIEPGYFFDMIPGYTMIASNIVENSFSEVKIFSKNNNEYQTTIYANNGNLISKDNLITINLFNGEMHEIGLKDYNHYRRIKFQKHQMVMTLENLMLDRNNSGTRSDREMTVPMMNTQIENYHFLINQSFERINQLQIDSENFIGDKNSLNSLIENLESNSNTNELINENSIILQLKNEKSLINNYEKNINQFGVEIHKKFSLAVACLLFVLVGSPLGIMIKKGGISIAAGLSIAFFLVYYILLIWGEQMADRSLMSPALGMWIPNIFLAISGWIIIKKSESN;locus_tag=LOCUS_4860;note=WP_010932422.1 hypothetical protein (Chlorobium tepidum TLS) [pid:28.3%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:5.0e-55],MGA_502
sequence17	Aragorn:1.2.38	tRNA	2244	2317	.	+	.	ID=Aragorn_23;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0220;note=Aragorn_23
sequence17	Aragorn:1.2.38	tRNA	2325	2400	.	+	.	ID=Aragorn_24;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0230;note=Aragorn_24
sequence17	MetaGeneAnnotator	CDS	2354	3373	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003403421.1;translation=MLWEHGVAGSNPATPTLSMNNIFKIFFLSLFIIQCSSDVSVEDILTNNNSNNNGEFNGGGNQTIPELSVELISTYNNQTASFATPFGGFNRSFIVHTPPNFNYATESLPLLFVLHGYTGRASLIRQYSGFDQIADQERFIVVYVQGTTDIFGNTGWNVDVVPSFNNVDDVGFFQALIKYFTTTYNVDSAKIFSSGMSFGGFMSYRLACELNEINSIGSVTGSMAGYYQCNPPKKTSVIHFHGMEDAIVPYNGAEWSYSAEAAHSFWKNHNQCNSQTETTIPDFNGDGQYVRHLVSSNCEANKNVELYSLEGEGHTWLSKEWGHDINASELLWQFFQKQE;locus_tag=LOCUS_4870;gene=lpqP;note=WP_003403421.1 hypothetical protein (Mycobacterium tuberculosis H37Rv) [pid:29.4%25%2C q_cov:78.2%25%2C s_cov:90.0%25%2C Eval:1.0e-28],MGA_503
sequence17	MetaGeneAnnotator	CDS	3599	3934	.	-	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDLIITIVKVIIPISLFFVWVVRYENIVQEFKNDFQYPSWLRDLTGVLKLSCATMMLSSSIELQEIGLFGITALMSFAVVTHLRIGSTPRKMLPSITLLLLSLMVLYLG;locus_tag=LOCUS_4880;note=MGA_504
sequence17	Aragorn:1.2.38	tRNA	4049	4123	.	+	.	ID=Aragorn_25;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0240;note=Aragorn_25
sequence17	MetaGeneAnnotator	CDS	4202	6109	.	+	0	ID=MGA_505;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024232.1;translation=MKKNQLKKPKILNSNKTFGPIKDFEKHLSPNWWKEIFNAMYIKTDADVVDDSDITRKEIDIIKKILNIKENDSLLDLACGHGRHLVELNSRGNYHLFGIDRSRYLIQKAKKNSKKNSLNISWKEGDARRLPYQSDSFDFVTNLGNSFGYFESVDHDAKILKEIFRVLKPGGILLMDLADGSFLKENFAPRSWEWIDKNYFVCRERKLSSDNQRLISREIISHSEKGVIVDQFYAERLYSKEELVSLLESADFKDITFHVDIETQSERNEDLGMMQKRFVLTAKCIKDWSPRKTQKENKNVFVIMGDPSLEDVIKPNAIFDKDDFETIDKLKEALFKNKDYNYQFLNNHKSLISDLQKNISNIDMVFNLCDEGFNNDALKELHVPSLLEIMNIPYTGSNPQTLAYCYDKSLIRGIASEIGVPVADAFVISGDENLFDLSIPFPIIAKPNFGDSSFGITQKNVAYSLEEFTDAIQRIRKEFGYSKPILVEEFLTGAELSVGIIGNIGDYKILPIIEEDYSNLPENLPKICGYEAKWIIDSPYMNSLKSIPATISEIQEEALIQYSLKLFERLNCRDYCRFDWRMDANGNPKLLEVNPNPGWCWDGHLAKMCQIGGISYSQMLELIVQSAIKRYSLKK;locus_tag=LOCUS_4890;note=WP_011024232.1 D-alanine--D-alanine ligase (Methanosarcina acetivorans C2A) [pid:52.2%25%2C q_cov:98.3%25%2C s_cov:89.5%25%2C Eval:2.2e-201],MGA_505
sequence17	MetaGeneAnnotator	CDS	6155	7450	.	-	0	ID=MGA_506;product=monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946567.1;translation=MTKLFFMNSNLKIAVIGAGPSGITTIKNLVEAGYKNVTCFEMNDQVGGNWVYSETEGHSSVFKTTHIISSRKFSEYTDFPMPSSYPDYPSQQELLQYFNDYVDHFQIRPYIQFNSRVSSASLTNNQWTITLEDQRKDHFDLLIVCNGHHWDPRIPSYPGHFSGEILHSHSFKNNQKFSGKKVLVVGGGNSACDIAVEISRVAKKTSISMRRGYHFIPKFIMGMPSDTFYSKTLWIPKRIRLFLQKLVLRLVQGKYENYGLQTPDHDILETHATVNSELLYFIKHGKIKPKVNIQSFKNNQVVFEDGAQEKFDTIIYATGYKITFPFFETKVIDYENNPVELYNYCFHPQIHNLMFVGLLQPLGCIWPLADLQAQQIVHFLNGKWKLPQNLDQAIHNQLTNRPFNFIDTPRHKLEVDFHIFYQHLKKEIQNL;locus_tag=LOCUS_4900;note=WP_010946567.1 monooxygenase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:53.8%25%2C q_cov:95.8%25%2C s_cov:93.5%25%2C Eval:6.9e-129],MGA_506
sequence17	MetaGeneAnnotator	CDS	7515	8165	.	+	0	ID=MGA_507;product=putative transaldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y7E7;translation=MKIFLDTADILILKNAYNSGLIDGVTTNPSLILQSGQQPHDVYQQLQDLGIKDISAEVVGESAEEFLLMAEEYINIGPEITIKVPCTEEGLKACKVLSDRGVRVNVTLIFSVAQAILSAKAGATYVSPFVGRCIDNKIDGIELIASISEAYIIHDISTQILAASIRDVDMAVNALLNGADIITIPPIVFNEMFKHHLTDEGLEIFNRDWIKVKQKV;locus_tag=LOCUS_4910;gene=tal;EC_number=2.2.1.2;note=F9Y7E7 putative transaldolase (Ketogulonicigenium vulgare WSH-001) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.1e-52],MGA_507
sequence17	MetaGeneAnnotator	CDS	8167	8841	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932146.1;translation=MKVKEYKIKKSLSREIQRLNDIVADLDSLVTEMGSDFYRVVIFGSARIQKNTEEYQEVQNLAKNIAMLGADIVTGGGPGLMEAANAGAKEGSKKTKSIGVRIELPFESEANSHLDVKFSHKRFSSRLDEFMRISNAVVITPGGIGTLLELFFAWQLIQVEHIKPKPMILVGNMWKGLIQWIQENPLRKNLLDQKDIDKLQIVEKMEDVTPILEKEINNFYNKKQ;locus_tag=LOCUS_4920;note=WP_010932146.1 hypothetical protein (Chlorobium tepidum TLS) [pid:48.6%25%2C q_cov:79.0%25%2C s_cov:84.7%25%2C Eval:1.2e-44],MGA_508
sequence17	MetaGeneAnnotator	CDS	8851	9885	.	+	0	ID=MGA_509;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013228550.1;translation=MLSANFLMSQGECCGNGCVNCPYTPRHKKGNKNINISKIQSKSILYNWSEIMSEYLKMPMIGLGTWLLPNELAEEVTITALNLGYRHIDTAQAYRNEAGIGEAIKKSSLSRDGLFITTKMWPGMEPDNNFQNYNSVINSCNQSLSMLQINEIDLYLIHAPFAKDLRLEQWQAFLDLKKDGKVKNIGVSNYNIHHLQEIEDAGLEMPAANQIEIHPYHLIRPTLDSYMAEHKILPIAYSSLAPIPNWREGSRWNGKPEEMKTGSMPYEDIAEKYQISVPQLLLKWGIQMGYPVLPKSVKKDRLKENINLDHFEISLQDMKALTNAHLDQQKCLAWSNGFDPLDSE;locus_tag=LOCUS_4930;note=WP_013228550.1 oxidoreductase (Amycolatopsis mediterranei U32) [pid:38.4%25%2C q_cov:77.6%25%2C s_cov:89.2%25%2C Eval:3.9e-44],MGA_509
sequence17	MetaGeneAnnotator	CDS	9890	10654	.	+	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYPYNPRVGDNYRYEKDSSKPFKVSRTKIELFYNCPTCFYKDARLGLRLPPSPSWAINSAVDSLLKKEMDFCRKENRPHGIFTENGLDIKPFHHPDIEKWQNAFHGIQYLDEKHNFLLYGGVDDIMVDEKDQLVVIDFKATAKTSEIVNPSDVYDNGEGYKRQLEIYSWLLQQNGFPVSELGYLLYYNGDAGQPHLGTKMVFRRSLVSFNLDTSWINPLIAEMYHCLQQEEIPSYNAECHQCIYLDAVERLDF;locus_tag=LOCUS_4940;note=MGA_510
sequence17	MetaGeneAnnotator	CDS	11337	12011	.	-	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011038642.1;translation=MITRNVFFIGMAGFFLLYLNLFFREVPSEFQFERGDLLFQDLDCGPPCDAIEAVTVGYQNANLSHCAIISSVGPNLQDIIVIESIGNEVEEISLKEFLDRSPKVLIGRLKNEHQSLIGPALNFIETLLGKPYDFIYSLENDSYYCSEIIYEGLKYADASNTIFSVQPMTFKQPSSKEFFPIWVNYYRDLNHRIPEGELGLNPGSMSRSNEIDIIYMYQKPSGMK;locus_tag=LOCUS_4950;note=WP_011038642.1 hypothetical protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:25.6%25%2C q_cov:77.7%25%2C s_cov:84.7%25%2C Eval:3.6e-14],MGA_511
sequence17	MetaGeneAnnotator	CDS	12008	12343	.	-	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKILFIQNRTGIKRSNFFDHWENIHAPHMVKVLQPLKYVLTFFEEDIENGCCGMAELWFNSEQDYQNAMEKRKTEFGMSDNWHDVAKAWPDPDRYEYTGKEIVILDQPK;locus_tag=LOCUS_4960;note=MGA_512
sequence18	MetaGeneAnnotator	CDS	477	2219	.	-	0	ID=MGA_515;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454140.1;translation=MKFRTHKCGELSTGNIKDSVILSGWVHSIRTHGKITFIDLRDRFGLIQLVFQSESLTSIIKKISLEDVITIEGKVSEREDSLKNPNLSTGSIEIIVKSCEIINSTNPLPLSIHDRESSSEEHRLKYRYLELRNKSLQNNLIIRHQTTQVVRNYLSKLDFIEIETPILMKSTPEGARDYLVPSRVHKGKFYALPQSPQMYKQLFMVSGLDKYFQIVKCFRDEDLRSDRQPEFTQIDLEMSFINESEIMKTVENLLKEVFEKTISYKFQSPFPSLSYREAISKYGTDKPDLRFGLELFDFSPFGKKSNFESFKSSEYVSGMIISNKNDFFSRKQLAELDIIAQNDGAKGVAWMKYDGEKFDGGISKFFDSNLQNEIIKNFHLKDSSILLFIGDDFDRASKILGKIRIDLGYKLDLVKKDIYAPVWIKDFPLFEWDNKTKKFDSVNHPFTAPKDEDIKLLEHKPEDALSKGYDIVINGYEVAGGSIRIHNSEIQSKIFQILNLSKNEISEKFGFFVEALTYGAPPHGGIAFGLDRLVMLLTGSDNIRDVIAFPKTTSASALMEEAPSTVDEKQLDDLGIKLKN;locus_tag=LOCUS_4970;gene=aspS;EC_number=6.1.1.12;note=WP_004454140.1 aspartate--tRNA ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:48.5%25%2C q_cov:99.1%25%2C s_cov:97.6%25%2C Eval:3.4e-161],MGA_515
sequence18	MetaGeneAnnotator	CDS	2235	2516	.	-	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGYTLEIITPIKSYKFSDVIHTLCPGESGYFGILKNHTNSIINLKEGVISVKTAKEKIDFSCSAGIVDINSDPADDIEDRVVLLLEDIQEVK;locus_tag=LOCUS_4980;note=MGA_516
sequence18	MetaGeneAnnotator	CDS	2516	3904	.	-	0	ID=MGA_517;product=ATP synthase subunit beta 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAC9;translation=MNNEGKILQITGAVVDVKFDEGYLPRIMNALSIKRNDGSNLVLETAQHLGQGVVRTIAMDSTDGLVRGEKVTDSGQPISVPVGKETLGRMFDVLGNPIDQKGDLGKTTMSPIHRSAPAQDTLTTSSEMFETGIKVVDLMEPYTRGGKTGLFGGAGVGKTVLIQELIRNIATEHGGFSVFAGVGERTREGNDLYAEMTESGVIDKTALVFGQMNEPPGARLRVGLSALTMAEYFRDEEGRDVLLFVDNIFRFTQAGSEVSALLGRMPSAVGYQPTLSTEMGDLQERITSTKKGSITSVQAIYVPADDLTDPAPATAFAHLDATSVLERKIAELGIYPAIDPLTSTSRILDPRVIGDRHYNVARSVQSTLQQYKDLQDIIAILGMDELSDEDKMVVSRARKMQKFMSQPFFVAEQFTGIEGRYVKLEDSIAGFEAILNGEVDDLPENAFSYVGSIDEAIEKGRK;locus_tag=LOCUS_4990;gene=atpD2;EC_number=3.6.3.14;note=Q8KAC9 ATP synthase subunit beta 2 (Chlorobium tepidum TLS) [pid:73.6%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:5.7e-193],MGA_517
sequence18	MetaGeneAnnotator	CDS	3915	4772	.	-	0	ID=MGA_518;product=ATP synthase gamma chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAW9;translation=MANLKNLSERIKSVTSIQQVTKAMKMVAAAKVKKAQEKMEISRPYSLNTQELICRILPQVSSSDISLVEKREVQNIGLIVITSDRGFAGSFNSSVIRLAEKEISRLGKDNVKLFCLGKKSSEYFSKRNFNVQEKFFDFWRDMSFQTASEISESFINAFESNEVDEVHVIYNRFKTLSSQELVMEKVLPVDFTLNYNIKNYNYDYEPGQKQIVSMLIPKHIKVQMWQQLLESYSSEEAARMIAMDNATENAKEIIKDLKLEFNKARQAAITTEMLEIVGGAEALVD;locus_tag=LOCUS_5000;gene=atpG;note=Q8KAW9 ATP synthase gamma chain (Chlorobium tepidum TLS) [pid:37.9%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.5e-51],MGA_518
sequence18	MetaGeneAnnotator	CDS	4772	6289	.	-	0	ID=MGA_519;product=ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KAW8;translation=MDIKTNEIGDLLRSQINNINAGVDVNEVGEVLEIGDGVARTSGLGNVMSSELVEFPNNVFGMALNLEEENVGVVLFGDSSLVKEGDTVKRTGKVVEVPVGKELLGRVVDPLGQPVDGKGPINAKNSLPIERKALGVMQRFPVKEPLQTGLKSIDSMIPIGRGQRELIIGDRQTGKSAIAIDAIINQKSTHKSDSPVYCIYVAVGQKASTVAKLVAELEANGAMEYTTVVVANASDPAPLQYIAPYAGCAMGEYYRDNGMHGLIVYDDLSKQATAYRQMSLVLRRPPGREAFPGDVFYLHSRLLERASKLSKDLGSGSLTALPVIETQEGDVSAYIPTNVISITDGQIYLDTNLFNGGVRPAVDVGLSVSRVGGSAQIKAMKKIAGKLRLDLAQFRELEAFAKFASDLDDSTAAQITRGRRMVEILKQNQYVPMPTEKQVVIIYAASQGYLDDIDLESVKEFEIGLLEHFESKHSDLLGEIISTGDITDDLSKKMNSAVEEFKKKF;locus_tag=LOCUS_5010;gene=atpA;EC_number=3.6.3.14;note=Q8KAW8 ATP synthase subunit alpha (Chlorobium tepidum TLS) [pid:62.2%25%2C q_cov:99.6%25%2C s_cov:98.1%25%2C Eval:1.6e-183],MGA_519
sequence18	MetaGeneAnnotator	CDS	6290	6832	.	-	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNHKKIRIYSENLNNSVNTFEDFLKVKSGLLELSTSMKNDLTVGSFFKSKSVSTMEKVNLFEIALVGSMHETLFEILKVVIENNDINLINQIDKHFTLLSKDKLNIAFVEITSSQKLETTLMEDIKSSLSEILNKKININFFVDSKLLGGLKIKVDDVLYDNSLLTKLENAKSKLIGV;locus_tag=LOCUS_5020;note=MGA_520
sequence18	MetaGeneAnnotator	CDS	6816	7388	.	-	0	ID=MGA_521;product=ATP synthase subunit b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CNJ3;translation=MNLILTPIFGISFLILEENSKGVNPLLTPELGTYVWSLVIFMTVLFVLRKFAWNPLLNFLDEREKEIASSLQMAESAKTDLEKIKEESEKILNDAKKEGKAIVNDSKLKADESAAKILEDAKAKSNEFLDEAKSKIEIEKKRAIKEIKEEVVSLSLDLATKVLQRNINDDDNKKFVKSSLETMKADEAKS;locus_tag=LOCUS_5030;gene=atpF;note=Q8CNJ3 ATP synthase subunit b (Staphylococcus epidermidis ATCC 12228) [pid:34.2%25%2C q_cov:80.0%25%2C s_cov:88.9%25%2C Eval:4.5e-22],MGA_521
sequence18	MetaGeneAnnotator	CDS	7407	7589	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAGLAVIGAGIGIGLIGYGVAQAIARQPEAAGEIRSQTFLLAILVEGAAILLGLLSLVL;locus_tag=LOCUS_5040;note=MGA_522
sequence18	MetaGeneAnnotator	CDS	7609	8583	.	-	0	ID=MGA_523;product=ATP synthase subunit a;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9AB63;translation=MSFCLYSGAMLGEKTTGKWTMDQAPQYAIDHVANSPKNLFEFEILDNLSQKISSFLGISSDSLFYIDLGITKHVFLLFFVSLITVTTIVTLIQKYISNKKNIPSKFMSIIEMFVIYLRDDVLKNFIGDKEYRSWAPLVYTIFFFILFGNLLGLVPIFDLFGLVGKISHIDSIYIFSKGGNTVTANVNVTFAIATITFCAFIFAGIKKYGFVQHWKNLAPSGLPWPLYFVVVPIEFMGLFIRPLALTLRLAGNMMGGHIALVIFITFIFSATAEIGGLAGLGIAPFSVSLALGLTMLELLVAVIQAYVFALLTAVFIGMAIHVDH;locus_tag=LOCUS_5050;gene=atpB;note=Q9AB63 ATP synthase subunit a (Caulobacter crescentus CB15) [pid:32.2%25%2C q_cov:84.6%25%2C s_cov:95.3%25%2C Eval:2.7e-31],MGA_523
sequence18	MetaGeneAnnotator	CDS	8804	9127	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSQTIIAEDVIIDGDVKLDGDITVYGEIKGSLVTSGSVQLAKIGKIHGNVNCSFMEINGLINGDVFVDGSVELLSNCKLIGNIQYRALKIHDGAQFSGRCDIIVE;locus_tag=LOCUS_5060;note=MGA_524
sequence18	MetaGeneAnnotator	CDS	9120	9866	.	-	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKYKLIFTSPYKEKALKIEFSKSELYIYLASIFLLLSIFITLIIFSKPIVQEYFKVQNINKQLSEQKAIIDNLSGTINELNLMKNYIESIIGTEKEVNIDENLIRSVLVSNVPSSYPVEGVLSQRFDLSKKHLGIDIVNDVSTPIFSVADGVVIFSDFTKEIGNAIIIDHKNGYFSHYYHNEELFLEKNEKVSRGDLIAKLGGTGMASGPHLHLEIWKDGEAINPILLFPNFDEKDELNNERNNDE;locus_tag=LOCUS_5070;note=WP_012545938.1 membrane protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:29.9%25%2C q_cov:74.2%25%2C s_cov:68.3%25%2C Eval:8.2e-21%2C partial hit],MGA_525
sequence18	MetaGeneAnnotator	CDS	9872	10705	.	-	0	ID=MGA_526;product=chromosome partitioning protein ParB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476457.1;translation=MKNNKSKLGSGLDALFTSNQNDSTQDQNNILISRIIPNPNQPRKVFDKKSLNELANSIAEKGLISPITVKPEGSKFIVIAGERRLRAHQLLGKKRILCYVIEEEKSNEDVMFMALIENIQRDDLNAIEEAKAYKYLQENFSLNITDIAKTVGKSRPAVSNSLRLLNLPDPIQESILEGNLSAGQARAILQKKTSQGMIQIWQKILKENLSVRKVEKAVSNPKKQNKIINSLESELSQKIGTKVEISSNRSSKGSVKIHFDKMTFDRVVEKLKSIKSD;locus_tag=LOCUS_5080;gene=parB;note=WP_011476457.1 chromosome partitioning protein ParB (Lactobacillus salivarius UCC118) [pid:39.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-47],MGA_526
sequence18	MetaGeneAnnotator	CDS	10695	11453	.	-	0	ID=MGA_527;product=chromosome partitioning protein ParA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005784850.1;translation=MGKIISVINQKGGVGKTTTAINLATSLAILEKKTLLIDFDPQANATSGLSNFGFHNDCSIYDVLSKKISIDNAISKTDLDFLNFIKSERNLVGSEIELVNIKNRQNQLLDAIKKISNKYEYIIIDCPPSLGLLTLNALVASNNVIIPLQSEFFALEGLNSLNDTIKIVQDNFNPKLKIMGILITMHSKRLKLAKKVDNLLKTHFKDKLFKTRINRNVKLAEAPDNGRPVIMYDVDCIGARDYMNLALEINEK;locus_tag=LOCUS_5090;note=WP_005784850.1 chromosome partitioning protein ParA (Bacteroides fragilis YCH46) [pid:51.4%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:4.4e-70],MGA_527
sequence18	MetaGeneAnnotator	CDS	11531	12496	.	+	0	ID=MGA_528;product=L-threonine 3-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289187.1;translation=MKTMLITGFRGEIGSQMLRELVEKNPNSQIIALDLLEKTQSNCFQNVEFIQDSITNIELLQSIFEKYNIDEIYHFVALLSQSTKKNPELAQKINVDSTISIIDLAYEFGAKNNKFIKFFFPSSIAVYGPRKIALASEKDIIKPISLYGLNKINIEQYGTKKYEQSILNGSGVDFRSLRFPGILSPFNIPTGGTTDYLPQMLHSAKKGLKYVCQVDKKTTLPFITIDNAINAIALLMSSQCIKSKLRSFNVQDFSISAYDFELILTEMFSEFQTQYKSNQDLQIIADSWPDSLNCELACSWGFSSNNEIKKIINNFFNLIDV;locus_tag=LOCUS_5100;gene=galE2;EC_number=5.1.3.2;note=WP_002289187.1 L-threonine 3-dehydrogenase (Enterococcus faecium DO) [pid:32.3%25%2C q_cov:94.1%25%2C s_cov:92.1%25%2C Eval:6.0e-36],MGA_528
sequence18	MetaGeneAnnotator	CDS	12489	13667	.	+	0	ID=MGA_529;product=2-amino-3-ketobutyrate coenzyme A ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8E8J0;translation=MSELNKKIDNQLSLMRESGTYKNERIIGSSQETSIFVNNHNVLNFCANNYLGLANDIRIKNAAIQAINEWGYGLASVRFICGTQEIHKLLEKKVSDFLKKEDTILYSSCFDANGGIFESILDENDAIFSDELNHASIIDGIRLCKAQKNRYKHIDMADLESLLKNSTSKTKLIVTDGVFSMDGNIAPLKEITELSRKYNALVMVDDCHATGVIGENGMGSGSYHQVHEHIDIISSTFGKALGGASGGFITSSYKIIELLRQKSRPYLFSNSMAPPLVSASIEAFNVINSDPSIFKRLDENTKYFRQKIIEAGFEIRGENHPIVPIMIYDAKKAMELSKKLLEKNIYVIAFSFPVVPKEKARIRVQLSSAHTREQIDLAINSFIECSQELNII;locus_tag=LOCUS_5110;gene=kbl;EC_number=2.3.1.29;note=Q8E8J0 2-amino-3-ketobutyrate coenzyme A ligase (Shewanella oneidensis MR-1) [pid:56.3%25%2C q_cov:98.5%25%2C s_cov:98.0%25%2C Eval:2.3e-120],MGA_529
sequence19	Aragorn:1.2.38	tRNA	41	128	.	+	.	ID=Aragorn_26;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0250;note=Aragorn_26
sequence19	MetaGeneAnnotator	CDS	451	906	.	+	0	ID=MGA_530;product=SOS-response transcriptional regulator UmuD-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202621.1;translation=MNQVKKIKTTKNFEFYSVSTDSNYQIPLIPSMVSAGFPSPADDYLDVPIDLNEHLVENVAATFYIRVIGNSMIDEGINDGDLLIVDRSKNPKNNDIVIGILNGEFTVKKIEKIKNKLFLVPANQNFQRIEINSEMDFSVWGVVTYVIHKTR;locus_tag=LOCUS_5120;note=WP_011202621.1 SOS-response transcriptional regulator UmuD-like protein (Bacteroides fragilis YCH46) [pid:41.1%25%2C q_cov:93.4%25%2C s_cov:95.9%25%2C Eval:1.4e-31],MGA_530
sequence19	MetaGeneAnnotator	CDS	884	2167	.	+	0	ID=MGA_531;product=SOS mutagenesis and repair protein UmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202620.1;translation=MSSTKPDNLIAIIDCNNFYVSCERIFNPKLFNKPTVVLSNNDGCVIARSQEVKELGIPMGIPIFKIQHLVEIHDIQVYSSNFSLYGDISRRIMQIIQAENPSVELYSIDEAFITLNPRYRDVESYCEDLKKRILQWTGIPVSIGVGKTKTLAKIANHLAKKLYPDKGVCILDEINTEELLQRVKVEDIWGVGRQKTKFLKLNGIFSALDLKRANPFWVQKHMTIISRHTVDELNGIPKIELEDDFVSKKTISTSRSFRKNISSLSVLENAVSSHAARAAEKLRTQKGYITSLGVYVSTNRFRDDLPQYRQFITVNFPLAINDTAGIIQAAIQGLHAIFIPELEYKKCGVILNNIIRDNQVQESLFHSRRNKEELLSSSIDTINKAYGLNTIKYAIQGSPESWSIKREKLSQSYTTNWNDLLSINLEP;locus_tag=LOCUS_5130;note=WP_011202620.1 SOS mutagenesis and repair protein UmuC (Bacteroides fragilis YCH46) [pid:45.0%25%2C q_cov:97.4%25%2C s_cov:97.0%25%2C Eval:4.8e-98],MGA_531
sequence19	MetaGeneAnnotator	CDS	2164	2685	.	+	0	ID=MGA_532;product=non-canonical purine NTP phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KU27;translation=MNSKILVGSQNPVKINATRLAFEHYFTSFTIEGKSSSSGVNDQPLSSEETLTGAKNRVKNILQFPAEYYVGIEGGVEKRNQDYEAFAWIVIQDTNGKQGISKTASFTLPKKVSKLIDQGLELGEADDQVFQRQNSKQQNGAVGLLTQDIITRTSYYQEAIVLALVPFINSELY;locus_tag=LOCUS_5140;EC_number=3.6.1.-;note=Q9KU27 non-canonical purine NTP phosphatase (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:45.4%25%2C q_cov:98.3%25%2C s_cov:92.3%25%2C Eval:4.6e-33],MGA_532
sequence19	MetaGeneAnnotator	CDS	2704	2889	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKILNELRTNTRENGLKYAIKAMFQQYGWKIGVAIFLYYLIRDVTLYIIIPYFVFKGLMQ;locus_tag=LOCUS_5150;note=MGA_533
sequence19	MetaGeneAnnotator	CDS	2987	3337	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLWYSIILLIIANTISWFQLHSQFVWKEVWFWNNPWTTALVGFPVGVMYFYATKFSFLHFGFTWNFRMVGFGVGTIIFGIMSWSMLKEIPTLKTVICILLALAIILIQISNVWDK;locus_tag=LOCUS_5160;note=MGA_534
sequence19	MetaGeneAnnotator	CDS	3374	4093	.	-	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERIIVALFILAGLAFSQETLKPKTELKPKEPRTVNTSGISSRIMLDTSKSSLEWNGGLKITNKEHYGTLKFQQGTLFINSNKSINGTFVVNLRTLVNTDLSGGSKDRLEGHLRSQDFFDVEKYPTAKLVIKQSSILDKVEEKKYKMLVEGDLTIKNQTHPISFEAILDLDSKIKTATGSLEFDRLLYGVQYRAERYLDDPSTFWNKIVANTQTSMDKVIRDMIKVDFNISTTANLISE;locus_tag=LOCUS_5170;note=MGA_535
sequence19	Aragorn:1.2.38	tRNA	4188	4275	.	+	.	ID=Aragorn_27;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0260;note=Aragorn_27
sequence19	MetaGeneAnnotator	CDS	4276	5682	.	+	0	ID=MGA_536;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E0A6;translation=MNYPIVRFAPSPTGYLHIGGARTALFNWLFAKKHQGKFLLRIEDTDLERSERLYIDQIISALDWLGLNHDGNYILQSNNLSNHHAVLNQLLNQGKAYRCFYTKEELDQLRLESEKAKKPFRVPTTYRDISQEEVNKHLQDQKEFTIRLKVPEGKTCFEDLVYGNITVQNREIDDFILARSDGSPTYNFVVTIDDADMKITHVIRGDDHLANTPKQILIYEALDLPIPTFAHLPMILGSDGKRLSKRHAATNVQEYKEKGYQPKSIINYLSLLGWNPDSDDEIFSINEIIEKFELNQVQKKPAIFDEKKLNWISGQHLQKSSLRELTSAIKDLDFTWAENHSEGFIKDLVLLLQERSKNIQDIIELGKIIVSNPSYSKEDLHKIFIDNNFEIIENFTTGLSFDEFTASNIEELINNISIQNEVSLGVVMKQIRFAITGITYGPSLVEILLLLGQDSVISRLKNFVKQLT;locus_tag=LOCUS_5180;gene=gltX;EC_number=6.1.1.17;note=B8E0A6 glutamate--tRNA ligase (Dictyoglomus turgidum DSM 6724) [pid:42.9%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:2.3e-104],MGA_536
sequence19	Aragorn:1.2.38	tRNA	5736	5810	.	+	.	ID=Aragorn_28;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0270;note=Aragorn_28
sequence19	MetaGeneAnnotator	CDS	5817	6299	.	+	0	ID=MGA_537;product=tRNA-specific adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3CQ57;translation=MSDLLTNNHEFWMKKALKLAFDASKVNEVPIGCVIVYDNKIIGQGYNQCESLNDSTAHAEILAITSASNTLGDWRLNQCSLYVTKEPCIMCAGAIVNSRIDSVFFGCYDEDLGACGSKFDICGNPSLKTPLTVRGNILGVESLALIRNHFHELRKRQQQI;locus_tag=LOCUS_5190;gene=tadA;EC_number=3.5.4.33;note=A0A0H3CQ57 tRNA-specific adenosine deaminase (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:42.1%25%2C q_cov:95.0%25%2C s_cov:90.5%25%2C Eval:2.8e-31],MGA_537
sequence19	MetaGeneAnnotator	CDS	6296	6511	.	-	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRYISFPNYFGEILEWIAFAIMTWSLAGLSFAIWTIANLGPRAIKGHQWYLEKFKEDYPQDRKAIIPKIL;locus_tag=LOCUS_5200;note=YP_001703552.1 putative steroid dehydrogenase (Mycobacterium abscessus) [pid:50.0%25%2C q_cov:98.6%25%2C s_cov:26.2%25%2C Eval:1.1e-15%2C partial hit],MGA_538
sequence19	MetaGeneAnnotator	CDS	7089	7940	.	+	0	ID=MGA_539;product=retinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011402797.1;translation=MNNQKNIVITGATDGIGLAAAVSIARKGYRIGLVGRNPQKGAIAREKIISLTGNDQLDFFEADLSSIKNVKSLAEQIKTKYSSLDVLLNNAGGANRYKIITEEGLEKTFATNQMNYFVLTTELLGLLSETSGSRIVNVASNAHIGSTIDYSNINAEKEYSFWKAYCVSKLMNLMFTYRLASIQDKVSVNALHPGFVDTNIAGNEGNFIKKIVKFGSKIFARSVEDGADSSIYLSTSDEVEGVSGQYYFKCKPIKSSKISYDQNQWDQIWSICEDFKQNILNEK;locus_tag=LOCUS_5210;note=WP_011402797.1 retinol dehydrogenase (Salinibacter ruber DSM 13855) [pid:36.9%25%2C q_cov:94.3%25%2C s_cov:93.3%25%2C Eval:1.7e-39],MGA_539
sequence19	MetaGeneAnnotator	CDS	7930	8379	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRILHRKDYKFFTTAQTRWRDSDVLGHINHTVYLSLLETKSREFMDFIYGGEDQHDYHKDLDATNGGLLASMQVRYIKQVHHPAQLDIGSRITRIGTKSYDIHHGIFVQGEDEPSFQSIHTFVKFDFKKQQSIPVDKVLSDFLEELV;locus_tag=LOCUS_5220;note=MGA_540
sequence19	MetaGeneAnnotator	CDS	8376	9143	.	+	0	ID=MGA_541;product=UPF0246 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87SC0;translation=MITLLSPSKTLNFNTQSITPDFTQCDFLESAAELVQHAKKLSSKDLQDLMKISTKIADLNKERFDRWSLPFNSDNAKQAILAFDGGVYAGLDANNSLSQTDLNFAQNHLRILSGLYGLLKPLDLIQPYRLEMGISLKNSKGENLYSFWKKRITDSLNQTLKNHQHSLIINCASNEYFHAIDSDKVKGQIINVTFKEKRDGQLKFISFNAKKARGMFSNYIIKNRIDLVEGLKDFAYDNYKFDLNLSTKDDLVFIR;locus_tag=LOCUS_5230;note=Q87SC0 UPF0246 protein (Vibrio parahaemolyticus RIMD 2210633) [pid:51.4%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:3.9e-66],MGA_541
sequence19	MetaGeneAnnotator	CDS	9155	10639	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLYVFLVLFTVSCGGNQKTFSRQIGENSQSFYQGMEALHNFMLEDARSYFSDVLEKNSNCASCFLNLSFAEPDVVLKRTYLNQALSLSKENHPETLLIQNALKALDNTDLSPFNGYLELYKNHPVDSYLAAGAFRELQSQDKLQQGRNLLKQAAERTQKGHLYNLLAYSYMWYFDPITPEYDQALEYLDQYISLEPMLANPLDSKGEFYLNKGDYETAIRYYTQASIQDPNFEWSKKNISLAKYQQLFLDGNAKTMSFSSENAEALNLFNVGRWNLYNLNWEQAVSDFSNAIDLDSSFAFAYLLRARTNQFLNKEERIVQDDLDAAQSFSINASLEERNLIDAFISDNTVGSTNFIQLSEELSDKYSDDSLLAFETVFATISIVGPERVLERAKSLYEMNPSFTPSLNMIGYAYLRLENYDKAKNAFQEQIRSAPASANPYDSMGDYYLAVKNDELAFEYFKHSSKLGLSASSLKADSLEVLINKKNEKF;locus_tag=LOCUS_5240;note=MGA_542
sequence19	MetaGeneAnnotator	CDS	10640	12181	.	+	0	ID=MGA_543;product=DNA polymerase III%2C subunit gamma and tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582668.1;translation=MSTENYQILALKWRPKKLNDLIGQDHISQTLIRAFELNRIPQAFLFSGPRGVGKTTSARLVALALNAEDKPTVNYNLESERVQEIIDGSSLDVIEIDGASNRGIDEIRELRDSINFMPVNSSYKVIIIDEVHMLTTQAFNALLKTIEEPPQHVKFIFATTDVHKVPQTIISRCQRYDFLPLTLSDIVNRLNFILKEEKISFEQEILEMIAQKSEGSMRDALGFLDQVLVYQNSDISKEEIQNILGIVSDVILFEISDSIHAKNAEKLLAILDQIEHSGFSIEEVLKNLIIHFKNLILINLSQTTLLRVSPEILKKYQAVSYSWSDRDLIRISNILSNLYAELKHYADQFVIFQLTILKLIHFDKTIDIQTLLSNASEESPVVKAPESVVNEKAAPSVASQSSTLNFDEIQENWTKILQLVRSKRASIAALLTDCILSEFDGTTLKIISYDRSDFNKRLLEGSIPLIEQSFKDSLNMEISVEIVIDTSVEKIEESKNLSIEEDDAISIFGGKEQ;locus_tag=LOCUS_5250;EC_number=2.7.7.7;note=WP_012582668.1 DNA polymerase III%2C subunit gamma and tau (Dictyoglomus turgidum DSM 6724) [pid:35.5%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:2.7e-82],MGA_543
sequence19	MetaGeneAnnotator	CDS	12181	12495	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGNMKEMLKQAQQMKSQMKQVKKELERIEVEGSAANNQCKVIMTGDMKVTNVKINETLLSSEAYVIENAIKVATNKALEEAKDVSAKKLKGITGGLTDGLPGF;locus_tag=LOCUS_5260;note=MGA_544
sequence19	MetaGeneAnnotator	CDS	12498	13091	.	+	0	ID=MGA_545;product=recombination protein RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q73MF9;translation=MAGISNYIEELINQLTKFPGIGRKGAERMVYHMIRSGKDFPKELINAVSQIHEHITSCDQCGMIYVTDENCSCSEDRNTKSLCIVEDIEDAIRIENTKAFDGLYHVLGGSIAPLDGIGPADLSFDRLMERLEGIEEVIIATNPSNSGNTTAQYIEKLLEDKDVSISRLATGLPVGSSLEYIDDKTLVSSINGRVKIK;locus_tag=LOCUS_5270;gene=recR;note=Q73MF9 recombination protein RecR (Treponema denticola ATCC 35405) [pid:46.9%25%2C q_cov:96.4%25%2C s_cov:99.0%25%2C Eval:3.3e-42],MGA_545
sequence20	MetaGeneAnnotator	CDS	164	2545	.	-	0	ID=MGA_548;product=phenylalanine--tRNA ligase beta subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RHB5;translation=MKISLSWLKRHVDFSWTASELADRLTMRGFESEVATDFSTFNHVIVGQVISCQKHPDADKLSLCKVSDGSSEFDVICGAPNVAVHQKIVFAKVGAVLPGDFKIGKAKIRGIESYGMICSERELGISEEHEGILVLDNKTKVGTPIGKVLGPLFDAIEVEITPDKGFALSHRGIAREIAAMTNQRLKIPFSLKKPKQNTALEKIAIDLDAKGGCTRYIGAVMKDVKVGPSPDWLKNYLKSVGQKSINNLVDISNFILLEIGQPTHIFDFSTFKKRTVAVQWAKDREKYHALDEETYELSKEHLVITDSKETVALAGIIGGYNSAVTDSTTEVLIESAYFDPVVIRKGSKKLGLLSEASRRFERGIDPNTSMEALLIIIQLIEEVAGGKLSSQITDSCVVDLSSKKLSLNESNLISTMGVHFPKQEITTLLKQLDFNPKETKNGWSCLIPTYRGDIEQEADLFEEVLRSIGYENILSDFTFQTNLINTKDEEFFISKLKKHLSSLGFNQCYNNSLQDLSEVNAFGIKPVEVLNPTSERMNTLRTTLHQGLLNNLDFNVKHGNTDVQFYEYGTIFSKEGEGLSGINQQFSFSCLIHGNWQENNVHFKNIPLSYYYLKGILENINDNFLSAKLKFISEEHPYLDSFQNVVDSKGDCIASLGTLKPSFLKKIDIAHKYPVHLMDINPQVFNLYASYAVKYHEVSAYPKVIRDLNFKLSSSIVIGEVVKAIHSTDQSILIDVRPVDIFKKSKQDNDQDVLFKLTFQSNNKTLEDNDVNPIINDVIKIISSKFKGILRDS;locus_tag=LOCUS_5280;gene=pheT;EC_number=6.1.1.20;note=Q8RHB5 phenylalanine--tRNA ligase beta subunit (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:33.2%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:9.7e-125],MGA_548
sequence20	MetaGeneAnnotator	CDS	2545	3522	.	-	0	ID=MGA_549;product=phenylalanine--tRNA ligase alpha subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GVW9;translation=MSIDKTIKDIQTSFNKEFPTIASANALEEIRIKFLGRKGLVNDLFEMFNQLPGSEKPKYGKSINILKSDITLAIEQKQANFQTNNVQSNIDLSLPGIELKRGSIHPLEEITSQIKSIFQSIGFSIAYGPEIDDEYHNFEALNVPKHHPARDMQDTYYIDPETVLRTHTSNVQIHLMENQQPPLRHICVGRVFRNEAVSYKSFCLFNQVEGLVVNEFSSFAQMKGTIEYFIAEMFGSNTKMRFRPSYFPFTEPSAEVDIWNDKLQQWMEIMGCGMVNPKVFENVGYPSNAKGYAFGMGIERIAMIKYGISDIRLFYQNDKRFLEQF;locus_tag=LOCUS_5290;gene=pheS;EC_number=6.1.1.20;note=A6GVW9 phenylalanine--tRNA ligase alpha subunit (Flavobacterium psychrophilum JIP02/86) [pid:53.9%25%2C q_cov:92.0%25%2C s_cov:92.3%25%2C Eval:2.0e-87],MGA_549
sequence20	MetaGeneAnnotator	CDS	3541	3888	.	-	0	ID=MGA_550;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q4ZUG4;translation=MPRSNSSVPRHRRHRKIIKLASGYFGARSRNFKAAKDAVVKAGLYAYRDRRQKKRQFRRLWIIRINAASRLNGLSYSKFVHLLKEKGVNLDRKILADLAVNNPSIFEDLTKYLQK;locus_tag=LOCUS_5300;gene=rplT;note=Q4ZUG4 50S ribosomal protein L20 (Pseudomonas syringae pv. syringae B728a) [pid:60.4%25%2C q_cov:92.2%25%2C s_cov:89.8%25%2C Eval:7.0e-31],MGA_550
sequence20	MetaGeneAnnotator	CDS	3890	4093	.	-	0	ID=MGA_551;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I6L6;translation=MPKQKTRKSVSKRFKVTGSGKLKRNKAGHSHMLIRRDSDVKRDAKKATVVAPSFEKRMKKMMAKAGS;locus_tag=LOCUS_5310;gene=rpmI;note=A5I6L6 50S ribosomal protein L35 (Clostridium botulinum A str. ATCC 3502) [pid:53.2%25%2C q_cov:92.5%25%2C s_cov:95.4%25%2C Eval:1.2e-11],MGA_551
sequence20	MetaGeneAnnotator	CDS	4104	4652	.	-	0	ID=MGA_552;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RNL3;translation=MSIAKSKKGELIISKNQKIRINEKIYAKEVRLIGADKQLVGIVSVPQALQIAQDSNLDLVEISPNAKPPVCKVMDFGKFLYEEKKKAQQSKKNQHVIKVKELRMRPNIGEHDLDNKLKMGKKFLEDGFKLKLTLMYRGREMSRQDLGDDLLSRILTDLGEVAKLEKDSPLTGRKKSIILAPK;locus_tag=LOCUS_5320;gene=infC;note=Q2RNL3 translation initiation factor IF-3 (Rhodospirillum rubrum ATCC 11170) [pid:50.9%25%2C q_cov:89.6%25%2C s_cov:94.2%25%2C Eval:3.3e-43],MGA_552
sequence20	MetaGeneAnnotator	CDS	4609	6552	.	-	0	ID=MGA_553;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000435143.1;translation=MSNISVNILGIGEHSFHSGISPLEIQQSMKGIPSNAIICTIDDHLADLSTPLKQSCTLKYLDGKSKDGHSVLLHSTAHLMAQAVKRLFPKTKVTIGPYLDNRFYYDFDVETPFTEEDLLSIETEMARITSENLTISHQVISRKEAIALFQSMDETYKVEIIEAIDETETLKIYIQGDFTDLCRGPHIANTNQIQHFKLLSSSAAYWRGDENNQTLQRVYGTSFADKKDLKAYLTMLEEQKKRDHRKIGKEMDLFFYDDEVGPGLPLWTPKGSVIIEELESLAKEKESLAGYDRVRTPHLTKGDLYEKSGHLKHYVSSMYPAMDVDGTNYYIKPMNCPHHHKIFASSPKSYRDLPLRLAEYGTCYRYEKSGELFGLMRVRSMQMNDGHIYCTEEQFKDEFLAVCNMYLEYFKIFGIEKYQMRLSLHDPKELGNKFIDNAELWIKTENDVRNALKDAKLNFVESVGDAAFYGPKIDVQVWSAIGREFTLATNQVDFAVPERFALHYTDMNGESRTPLCIHRAPLGTHERFIGFLIEHFGGNFPLWLAPQQVAVLPVSDKYNDYAESIIQELKVNSIRVKADLRSEKIGSKIRDAELEKINIMLIIGEKEAEDQSVTVRRRFIKEQQMISVKAFIKDVNSEIKERRVNHQ;locus_tag=LOCUS_5330;gene=thrS;note=WP_000435143.1 threonine--tRNA ligase (Staphylococcus aureus subsp. aureus N315) [pid:45.5%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.4e-166],MGA_553
sequence20	MetaGeneAnnotator	CDS	6549	7178	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIVYSQGIFSSNLGASSSYEQSPAIGLRSNESLVNIYSNIVVADIYVWSTPWLNTERTFPAQIILPLDNQQHVISLYSKEQFTYIANELQNFDFENKDIAEFEALQNQLELMQLGTKTVRPIPGSSDEIFLVYCDEKDLNCAQGLHWFDKFYSSHLDAKQEQNMISDLNGENLTEAEQLLVRKHRTGVASMLSLFTLGLFLIDNLGL;locus_tag=LOCUS_5340;note=MGA_554
sequence20	MetaGeneAnnotator	CDS	7261	7686	.	-	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLLIISFSLFLASCASSFGGINNNAIKASPTLNESSKMIAVNHILPSKKEEFELLNQTVILPAFKKYNSKVYNGLHFWIPNEENKDGTFTFIYIASPYYPEMNYDIFQVLLRQYNRQKAEEYFEQWMECFAYEQEVISFE;locus_tag=LOCUS_5350;note=MGA_555
sequence20	MetaGeneAnnotator	CDS	7687	9900	.	-	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIFLSILCLSSTFLFSQSFKDLTERPQYNPQFIDTEVILDGNLDEVFWQTAQIATDFTQTGAFQGEPSPYKTEVRSVMDADNLYFAFKSYFTEGKLNTSISKRDQLQDRDDRSWIEIDAFGDEGLIFAIGANPSGIQVDGRIIGGYGFDSSLDFIYEVASKIYADYYILEFKIPFSSLRYSLAESQTWRINFGRLFDIGDNVGREISWASKIEGIECHTCQLGFLNGLTPPKQERSYDFIPSFLYVNQDNYLDNTSTSDNEISLFTKVHLSSVDLIEFAFNPDFSQIESDDIQNDINSVNALYFKERRPFFTEGAEIFSTQGAERGYINLFYSRTINNPSSALKYTGKIGTTSYGIIAALDEDSPVLLPFEEFSSVVNMEKSDNLIIRTKTLDSNGGSFGTFFSNRSFVGEDSYMQNFGIDYHKHPGNNLHFTLHAVASIHKEPEGFSTKFDENPYFFDKYTAAFDGEKIEGNALGLSLMQRTRTDYTGATLRLRSPGFRTSNGFESNNATKYLTLRKGKDIFYEDGPLILSGHSVAYIHKDNYSGQTLKQELKISNNFAFRNGNRLGIVLETENESYQDIQFDGLNEMQVQFVRPFSSNLVFVWEAKLDDIIIKFEDQPVESKYLGASNYFEYKISDLSQISFGVAYEKAEDHFEGVLMNVKLTNSFTNQFSMRTKIQFNEFSDSWFVEPLFVYQPNAFSAIYLGMNELYSSEDGIFSNIKHSQRQLFVKAQYLF;locus_tag=LOCUS_5360;note=WP_011072809.1 hypothetical protein (Shewanella oneidensis MR-1) [pid:27.7%25%2C q_cov:55.0%25%2C s_cov:50.7%25%2C Eval:1.3e-35%2C partial hit],MGA_556
sequence20	MetaGeneAnnotator	misc_feature	10002	10753	.	-	.	ID=MGA_557;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011120765.1:TolB protein,WP_011120765.1 TolB protein (Rhodopirellula baltica SH 1) [pid:30.2%25%2C q_cov:79.1%25%2C s_cov:18.5%25%2C Eval:4.0e-20%2C partial hit],MGA_557;locus_tag=LOCUS_5370
sequence21	MetaGeneAnnotator	CDS	275	505	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRLRVLNSVQYSIQLLTALILLYFTINSNTPERIIIPILLIIGWTLGFYQRRITRVRVNKLRRKSKESEFIQEK;locus_tag=LOCUS_5380;note=MGA_559
sequence21	MetaGeneAnnotator	CDS	505	1941	.	-	0	ID=MGA_560;product=putative cytosol aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WJQ9;translation=MAHINKLKFIKINDLVDEDYCLVGVPTYSDEMDDDLAGLFKSQNKKGNVGDLVFEITEECRIAYFGLGKFEERTPEDFRRAAGTLINHAIKNDFKNVAVECPAEEEEPYFCQAFSEGLILSSYRFLNYFTDDRANYSLKSITMVGSCNKSSAEKGVKIANAVCAARDLANHPGNVTTPTRLAEFAKEVGEKGKMKVTIFDREKFTKMGMGSFAGVAQGTNEPPKFIIMEYMNGPKSEKPIALVGKGLTFDTGGISLKPGLRMEEMKFDMCGSAIVLGVMNAIATLKPKINVVALIPSTHNMLGGSAMKPGDILTAYNGKTIEVLNTDAEGRLILADALAYASKHYKPSFMLDFATLTGAVVVTLGKIATGLMGNDQSLINRIQKSSDNTGELVWQLPLWKEYCDQVKSKIADVKNLGSPGQAGTIAGAAFLKEFVGENIPWVHFDVAGTSYHVENRSYIQKDGASGQVIRLVLDLIGV;locus_tag=LOCUS_5390;gene=pepA;note=A9WJQ9 putative cytosol aminopeptidase (Chloroflexus aurantiacus J-10-fl) [pid:42.7%25%2C q_cov:87.0%25%2C s_cov:86.0%25%2C Eval:1.5e-87],MGA_560
sequence21	MetaGeneAnnotator	CDS	1950	2348	.	-	0	ID=MGA_561;product=acyl-CoA thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002853315.1;translation=MSKFIANYSELVQYQHINAAGSLFGGYMLAWLDLAAGKAANRFIKDTEAYTAVTRAMDKVEFKEPVFLGDWVNCEARVIDAGNSSIEISVSAFAESKRHGKRLACTANFTFVTVIKNDQGEFLKYNHNVSLD;locus_tag=LOCUS_5400;note=WP_002853315.1 acyl-CoA thioesterase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:38.1%25%2C q_cov:83.3%25%2C s_cov:83.2%25%2C Eval:8.8e-13],MGA_561
sequence21	MetaGeneAnnotator	CDS	2401	3693	.	-	0	ID=MGA_562;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000738812.1;translation=MKEENKKIYSWALYDWANSAFATTIMAGFFPIFFSQFWSSSENLSSSTFYLGLGNSVASIFVALLAPILGAIADKGTLKKRFLIFFAFLGIVMSISLGFIAQGMWPIALIVYVMATIGFSGGNIFYDSLLPAVSNEKNIDFVSGLGFALGYLGGGILIVINFLMLTFPSSFGLANSTEAIQYSFISVGIWWAIFSLPIFLFVKEPSLHEETSISQSIKEGLKELKDTFNEIKNLKVVFTFLIAYWLYIDGVDTVVRMAADFGIKLGFSQTSIMGALVLIQFIGFFATLLYVKFSENIGIKNAIYLGIFGYMVIIISASLVTEVWHFYAIAVLLGCFQGGIQTLSRSFYARIIPVEKSGEFFGFYNMWGKFAAVIGPLLMGTVTLVISSQVNDEELAARMGILSVLILFILGAYVFSKVDLTEGKQKAKLL;locus_tag=LOCUS_5410;note=WP_000738812.1 permease (Bacillus cereus ATCC 14579) [pid:39.2%25%2C q_cov:97.2%25%2C s_cov:96.0%25%2C Eval:9.2e-81],MGA_562
sequence21	MetaGeneAnnotator	CDS	3693	5006	.	-	0	ID=MGA_563;product=GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97ID7;translation=MGKNTKIAIIGRPNVGKSTLFNRLSSSRISIVDETEGVTRDRVYASGEWINHKFDIIDTGGFIGDNNDFFNQKIKEQIGHAIEECDVIIMLVDGKDGLNPADRFLSQLIKKSSKPSFLAINKNDSSKIDENLHEFYELGWDQLFSISALNGSGVGELLDEILKTYSSNLMDEVEENILSISIVGMPNVGKSSILNAIIQKDQAIVSDIAGTTRDSIDTNIKWHGKQIRIIDTAGLRKKSKIDDSIEFYSSLRAMDALLRSDIVLLVIDAIKGISKQDKSIVNEVLKKGKRLIILINKWDLTGESNISADSFKQEMYYDFPLLQNYPLLFVSAKTKKRISNILESAWELFNKNVSKISTKELNNWLEKVLIQYSPPAVQGKLIKIKFVEQVHINPPIFAFFTNYPKLISVSYKRFLMNKLRESFDLNGITFKLSIRKG;locus_tag=LOCUS_5420;gene=der;note=Q97ID7 GTPase Der (Clostridium acetobutylicum ATCC 824) [pid:43.3%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:6.0e-104],MGA_563
sequence21	MetaGeneAnnotator	CDS	5064	5492	.	-	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSALILFPIFPLVFLTLLQTAFNAQKVKKAVLNKSLDPKWLKFMPSWEAVPDEIQASREHLKNLHQAPIIFYVYCIIAYIVSHVTLLTLLLAWTYVLFRTIHFLIREINPKISLRRNPFAITILLSVILWIDLLVFLVSQV;locus_tag=LOCUS_5430;note=MGA_564
sequence21	MetaGeneAnnotator	CDS	5493	6476	.	-	0	ID=MGA_565;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964148.1;translation=MAAKKLSAKQLQKELQNLEGTDADALALEIEKEEVRKAALERADKRIRRSKVASGTISMYLAEISQYEPLSPDREVELAVQIAKGDQKAMKELVEANLRFVVSVAKKYQGNGLSLSDIINEGNLGLIKAAKRFDPSRGFKFISYAVWWIRQAILQALAEQGRLIRLPLNRVGTITKITKAAEKLEAEMGRPPKVEEISHQLDIKTEEVFNALQYSRRHSSLDAPFAEGEDSSLINVIEDQEERDPDNTVMDTSMKEEIASALSTLTERERSVIEMYFGINRDRSFTLNEIGEQFSLTRERVRQIKEKAIRRLAHKTRSEPLRVYLGQ;locus_tag=LOCUS_5440;gene=rpoD;note=WP_011964148.1 RNA polymerase sigma factor RpoD (Flavobacterium psychrophilum JIP02/86) [pid:55.7%25%2C q_cov:86.2%25%2C s_cov:97.6%25%2C Eval:8.8e-83],MGA_565
sequence21	MetaGeneAnnotator	CDS	6530	7429	.	-	0	ID=MGA_566;product=epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461580.1;translation=MKILIAGGTGFVGSRLVSVLENNGHDIFVLSRNPKKYSDLNTSKVKIIDWNEDNPNELHDIRIVIKLSGENVGTLWTKTVKEKILDSRVNTTYQLKEFLLRNSIRPLKILNASAIGYYGFLNEGKEVNELSKAGSGFLAEVCQANEQACRSFESFQGVKIYQLRIGFILKKSFIQMIKPLLLLCFPVPGINNAFFPWIHLDDVVGFIKYIVDEKAEEGNYNLISPQFCTHYKFYQTIKSPKNPNNKWVFFIPKFIQNIVGDMKELVLYGPKTIPSNTLLSGYQFKFEDLRETIEDLMKK;locus_tag=LOCUS_5450;note=WP_011461580.1 epimerase (Desulfitobacterium hafniense Y51) [pid:29.5%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:2.0e-35],MGA_566
sequence21	MetaGeneAnnotator	CDS	7426	8169	.	-	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSISNQIKTIQLGDKGPNLLTVERQRSIIRELSLNDSKAIIILGNDQVFSAGLNLKDLTAASTKEEVGEIFSSLSNLLQSIRKFPGPVISVISGHAIAGGCLLALASDYRIGMFGKQRMGLNEMAIGIDLPLDMLTIISQTIRRDYLFEVASQCRLYSPKECFQRGLINEYFSNPFIGKKRATKKAIHRAEELAQFYIAAGEPFIRLKESLLHGKEFSGDILIENWFNPSTQEKIQNVLKSLQKK;locus_tag=LOCUS_5460;note=WP_013227903.1 enoyl-CoA hydratase (Amycolatopsis mediterranei U32) [pid:29.9%25%2C q_cov:61.9%25%2C s_cov:61.4%25%2C Eval:6.2e-13%2C partial hit],MGA_567
sequence21	MetaGeneAnnotator	CDS	8175	8591	.	-	0	ID=MGA_568;product=thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256620.1;translation=MSSLSKNQYTTFYSMETRWYDEDMLGHINHGTAVAYFEDARVRHAADLGLKPYNKIEFPFIVASMRLEYLKQIKHPEELTVGLKISRIGGKSFDYQYGLFVGDENDPSIECFMTLVCFDFEKQQTVPVFDAIKKELNK;locus_tag=LOCUS_5470;note=WP_012256620.1 thioesterase (Chloroflexus aurantiacus J-10-fl) [pid:31.0%25%2C q_cov:91.3%25%2C s_cov:85.5%25%2C Eval:2.1e-11],MGA_568
sequence21	MetaGeneAnnotator	CDS	8575	8964	.	-	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P40761;translation=MRLIIFYDGVCLLCSKLINFLSRYPENSLIYFSPLQSPYAQKELDQKYHLQNTVFVKYDNKLYNKSEAVFLILKIIKHPLRFSKYLLPNVIWNWGYDLIARKRYLWFGKKEQCIFPKDNPQFLIDEQLK;locus_tag=LOCUS_5480;gene=yuxK;note=P40761 hypothetical protein (Bacillus subtilis subsp. subtilis str. 168) [pid:31.1%25%2C q_cov:87.6%25%2C s_cov:86.1%25%2C Eval:7.3e-12],MGA_569
sequence21	MetaGeneAnnotator	CDS	9680	10075	.	-	0	ID=MGA_570;product=sulfurtransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256140.1;translation=MNTKLLLGLIVLIACVAIFKKMNGGSQGMSNTISMQEFKNNILNENTYVLDVRTPAEFDGELGHIDGATLLPLQELPIRMKELESKKEQEIYVVCRSGGRSAQATAMLRAQGYNAINVDGGMLAWNALSNE;locus_tag=LOCUS_5490;note=WP_012256140.1 sulfurtransferase (Chloroflexus aurantiacus J-10-fl) [pid:43.1%25%2C q_cov:93.9%25%2C s_cov:87.5%25%2C Eval:2.2e-16],MGA_570
sequence22	MetaGeneAnnotator	CDS	166	858	.	+	0	ID=MGA_573;product=tRNA (guanine-N(1)-)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18BC2;translation=MEVYFITPFPETINLLIKNNIAFQGIKKNILSIKVINLRDFTEDPYKKVDDEPYGGGEGMVMMAEPLFKSLDYCLSVIKNKPKIIFPSPRGEKLESKTSFKLSKNSSLIFICGHYKGIDQRVIDKYVDYEISVGDYVLSNGELSSFIIFDTIARLVPGVLNNINSALTDSFVDDLLDAPYFTRPYEIDGLKVPDVLLSGNHQLIAEWKEKEKVKVTKERRPDLYRRYKKK;locus_tag=LOCUS_5500;gene=trmD;EC_number=2.1.1.228;note=Q18BC2 tRNA (guanine-N(1)-)-methyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-55],MGA_573
sequence22	MetaGeneAnnotator	CDS	855	1175	.	+	0	ID=MGA_574;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:D3H9G4;translation=MNTALKQDIPNFKPGDVISISVNVREGQKVRQQLFKGTVIARKGSGISETITVRKISNGVGVERIFPIHSPSIASITVDRVNKVRRAKLYYLRGLSGKAARLTEKK;locus_tag=LOCUS_5510;gene=rplS;note=D3H9G4 50S ribosomal protein L19 (Streptococcus mitis B6) [pid:65.0%25%2C q_cov:94.3%25%2C s_cov:87.0%25%2C Eval:3.1e-31],MGA_574
sequence22	MetaGeneAnnotator	CDS	1179	2327	.	+	0	ID=MGA_575;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000841855.1;translation=MSKNLKFLTVLSLSHSLVHASMMLVPSLYIFLMKDFNISASFLGFIYSIVSLFFGIGSLPISFLYNKFGARKLLLISQLGIATSSLIIFFNNELIPFILFSTLLGLFSSVHHPIALTLISERFHKNISKANAFHGVFGSLGVSLGPYIAYLSTNNYDNWQIAFFAVGMMSLFLSLLTFFFIPKNEQISKGYHFKQFLLGSQRKKLLIFFPLSLLIGFNFTAFNTFIPSVFNLEFGQEANLLISGIMIIGIIGQILAGILGDIFSRFNILSFVSLILFPLFLSMTYISSSSLILISIVLAVGMYSIQPLLNSIIKDITVPEIRSIIYGANFFLMFGVSGFASFAGGLIADSISYKFIFPIFSIFFPICILLILNLKKINKTNT;locus_tag=LOCUS_5520;gene=narK;note=WP_000841855.1 MFS transporter ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:21.6%25%2C q_cov:84.8%25%2C s_cov:80.7%25%2C Eval:6.1e-09],MGA_575
sequence22	MetaGeneAnnotator	CDS	2331	3140	.	+	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003388628.1;translation=MFISMTGYGSSTFEDKNLSVGVEIKSLNSRFFDLNVKCYFLSAQLEDKIRAYVQKKLVRGSVNLNINVENFHSFDTNSKQLQNTIASYKEIERKYDIELNYSSIFTLNQFNKSKFLSKNDENKIYKCVKEAVEILIAMREKEGENIKINFIKYLNNCNKNILKIDHIFNQEAFKNIKKNDSLKVTETSDDNLKDDIQEEIDRLKSHIIMINKSIESKEFSGKKISFILQEVLRESNTILSKFQKKNVLKHSIDLKVQTEKLREQINNIL;locus_tag=LOCUS_5530;note=WP_003388628.1 hypothetical protein (Clostridium botulinum A str. ATCC 3502) [pid:31.0%25%2C q_cov:99.6%25%2C s_cov:99.7%25%2C Eval:3.8e-30],MGA_576
sequence22	MetaGeneAnnotator	CDS	3137	3697	.	+	0	ID=MGA_577;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4U2;translation=MKNFIVISGSSGSGKTTLIELLSRDLNISISVSSTTRAKRDYEVNGVHYNFISKDQFDDMISKNEFLEYENVHGDWYGTPKKGLQKYVDSNLQLFLELDVRGAISLMKFFPKNTISIFLSPPNIDELRNRLIKRSTETSEQIETRLGRYQVEDNLKKEFDYNLINDNFETTFEVIKKIVLNCKLGD;locus_tag=LOCUS_5540;gene=gmk;EC_number=2.7.4.8;note=A5I4U2 guanylate kinase (Clostridium botulinum A str. ATCC 3502) [pid:39.8%25%2C q_cov:94.6%25%2C s_cov:83.7%25%2C Eval:1.7e-34],MGA_577
sequence22	MetaGeneAnnotator	CDS	3699	3980	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTESVSFKKLLKKTDDVYESVVVTSKRAKQILQDRLVKQMISENEEEMDANIFSEPKREIVDFSKEKKVTSIALEEFLGGKVDWTKSEETVE;locus_tag=LOCUS_5550;note=MGA_578
sequence22	MetaGeneAnnotator	CDS	3973	4617	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFLQKNSSYLNQNSQLFGNEIILELDESFSGNLSSFQNQICNCHNCPLGQTRTNFVFGEGDPNAELLIVGEAPGEKEDLEGRPFVGRSGQLLDKILLAINRNRQKGTYICNIIKCRPPSNRNPNREEIDQCLPFLKHQINLVKPKLIVALGLVAAKNLLNLESSLKDLRGKVHSFNNVPLIVTYHPAFLLRSPGFKKEAWVDFQKIRDFLKD;locus_tag=LOCUS_5560;note=WP_011205142.1 phage-related DNA polymerase (Burkholderia pseudomallei K96243) [pid:53.7%25%2C q_cov:76.6%25%2C s_cov:57.7%25%2C Eval:4.6e-48%2C partial hit],MGA_579
sequence22	MetaGeneAnnotator	CDS	4693	6054	.	+	0	ID=MGA_580;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74EG4;translation=MAEKENKIPNINLQPQAIEAEEAVLGSMMIDEDAAYKAISILKKSHYFYKDSHKYIFDAMLVLSSKSLPIDTVSVSDELKKMKKLTSVGGLFYISGLVDKVPTAARVETYAEIVKEKGILRDLITASHYISRQALDAGENVNTILDHAEQSIFNLTEEKDSKIYEHIDPILQKTIKRIEDIAANPNSVIGVPSGIIDLDKVTAGFQKSDLIIIAGRPSMGKTALALTIARNAAIENNSPTAIFSLEMSSDQLGQRLLSSEAKIDNSQVRSGQLAANKWKNISLASGKLAAAPLYIDDTPALSVLDLRSRARRLKREKNIELIIVDYLQLMQGDKSENRQQEISYITQQLKALAKELDIPIIALSQLSRAVESRTDKRPQLSDLRESGAIEQDADVVIFLYRPYQYDPENETEKGLAYLIVAKQRNGPTKTVRATFIDTFARFENYTEFFESAS;locus_tag=LOCUS_5570;gene=dnaB;EC_number=3.6.4.12;note=Q74EG4 replicative DNA helicase (Geobacter sulfurreducens PCA) [pid:49.1%25%2C q_cov:94.9%25%2C s_cov:96.3%25%2C Eval:6.3e-112],MGA_580
sequence22	MetaGeneAnnotator	CDS	6063	8234	.	+	0	ID=MGA_581;product=(p)ppGpp synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583335.1;translation=MLHKYSYSQKELELIDKKKNNLLSRFHSQKTITEIQKAIEFSVKMHAGQFRKSGAPYVVHCIDVANTLADWKMDNVSIISALLHDVVEDTEVSLEEIQKEFGSEVALLVDGVTKIDNIQFKSNEHEQVENFTKLFLSLAKDFRVIIIKFSDRLNNMETIQFMSPIKRKEIAKETIEIFAPLAHRLGMAKVKWKLEDLSLKCMDYNSYNAISKKIEKNLNKTDKILAQTIDPIRKELKKYGIECEIFGRYKSISSIHRKMIDRGKKFEEIYDLYAVRIIVDKIENCYLALGIIHSIYPPIQDRFKDFIATPKTNGYQSIHTTVVSYENKLTEIQIRTKEMNELAEVGVAAHWLYKKSGSIDNLDSQVPWIRDLISMLTSEDSDEPQDMMELLKIDMFEDEIYVFTPKGDLIKLPINSTPLDFAFAIHSELGFSTIRAKVNDKLVPLSYNLKSGDFVSIETNKNQKPSSGWLNFVKTSKAKHAIGKFLRIQEIEHQIKVGEAVLEKGLRKLKLLDQLPKIKDELEEKGFESFNDLLKQIGNGSIIFNDLIDKFFPGYRVHEPKEEKADSFIDDSRLDAKGIDLDGIKDISIQYGKCCNPLPGDSVVGYISRGRGLIVHIESCENLSSLDDGEQRIVSVQWNSKKGDYFKSKLHLICIDKSGILNEITNKISKMKINILDVRTDVVEGGMASLWIVLSVTHLKDLKNLIKTLNKIPGVDFVQRVHD;locus_tag=LOCUS_5580;EC_number=2.7.6.5;note=WP_012583335.1 (p)ppGpp synthetase (Dictyoglomus turgidum DSM 6724) [pid:39.9%25%2C q_cov:97.1%25%2C s_cov:98.3%25%2C Eval:7.0e-159],MGA_581
sequence22	MetaGeneAnnotator	CDS	8236	8637	.	+	0	ID=MGA_582;product=putative pre-16S rRNA nuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97IG1;translation=MRVIGIDYGLSKSGVSISDPLRKIALPYKTIRYKNENEFFKIILDICNDKNINDIVFGYPKNMNNELNEMTNIIDKFKERFESKNFNFFIEDERLTSQYAQKILLSQGISTGKNKEKIDLIASTLILQSFLDR;locus_tag=LOCUS_5590;EC_number=3.1.-.-;note=Q97IG1 putative pre-16S rRNA nuclease (Clostridium acetobutylicum ATCC 824) [pid:38.8%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:4.5e-17],MGA_582
sequence22	MetaGeneAnnotator	CDS	8634	10013	.	+	0	ID=MGA_583;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545206.1;translation=MIDVYKKNKLIIAILSGMLIGFSYPPFNLGFLIWIGFVPLIIYNFYDNNLSSKNFINFTTAFVAFSIIIHWVATNNGTSLSIAILSYILLVIYYSFFFVLMGIIFHYLNVRFKIFLFPFLFTLMEIARSVGPLAGPWLNLSLTQSNYIHYLQMVSIQKDILTFIIILANTFIAQFFITRKREWAFSFLFVIISVNLIGRLILFNQDLKILDKSVTVSIVQPSILPQDKWDQTIFEENNLILDSLSRESLSKNPDFIVWPETAITTPVSSQSVSMIFQNSFNFNGATFITGVPELSISDNSYNYFNSALVVTPERKYDFYRKIFLVPFAEYVPFFGKLVKRINRLDSLGSFSKGQEYKVFESEDLKFSVMICYDSSSPKIVQQFKKLGAEFIFILTNDAYVSDAMAHQHFLLARIRAVEQRIPIIQSGNHGISGVILSTGKILTKTNLFERKTLTAQVFY;locus_tag=LOCUS_5600;gene=lnt;EC_number=2.3.1.-;note=WP_012545206.1 apolipoprotein N-acyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:27.9%25%2C q_cov:97.8%25%2C s_cov:88.1%25%2C Eval:3.1e-42],MGA_583
sequence23	MetaGeneAnnotator	CDS	940	2316	.	+	0	ID=MGA_586;product=sodium:alanine symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000956710.1;translation=MIDTINIFFANLSNFLWGSYGISNLVIGGGLFFLIRSRLTPFRYLKHGFAILLGKYDNNDDEGQISHFQALSTALSGTVGIGNIAGVALAISIGGPGALFWMWVSSLLGMATKFYTCSLGILFRGRDSAGVLQGGPMYVIEQGMGKKYKFLAYWFSLAGLIGCLSLFQSNQLTQIIHDQIINVSSVNFNHFFLKLGIGLLISLIVALVVFGGLNRIADVASKLVPLMILVYVIGGMSILLLNIYQLPSIFDLILTSAFQGSAVAGGFVGVSIVISQGFRRAAFSNEAGMGTEVMAISATKNNEPIRSGLVAMIGPIIDTLIVCSITGFVILLSNDWSQGQLSGVSLTQAAFENHLGIIGRIIVFFSVVTFGLSTMFGYSYYGCKCASYLFGVEAKQIYRIFYIATIAISAILSIDLAINILDSMFALMAFPTMISAIYLAPTINKEAKKYFLNLKKEK;locus_tag=LOCUS_5610;note=WP_000956710.1 sodium:alanine symporter (Streptococcus agalactiae 2603V/R) [pid:37.1%25%2C q_cov:97.6%25%2C s_cov:98.0%25%2C Eval:3.3e-84],MGA_586
sequence23	MetaGeneAnnotator	CDS	2317	3057	.	+	0	ID=MGA_587;product=phosphomannomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013399656.1;translation=MKNIYIFDMDGTLTPSRRPMTENFELFFSSWAKRNLFFLVSGSNLEKIMEQVPKYIMDYSKGVFTCGGNQLWISDELIYDHKFPPPQDLIDFLEEKLSLSKYPKRTGNHIEDRGSMLNFSIVGRNCSLEERLDYFHYDQKHNERTNIAQEIIYKWDNLDAVIGGQISIDITPKGMNKSQVLNEIKKYFPNEKYIFIGDRTVEGGNDYPLAEVMLKTENCSVYQAGEPSAEDGYKATKQILLKLENE;locus_tag=LOCUS_5620;EC_number=5.4.2.8;note=WP_013399656.1 phosphomannomutase (Gardnerella vaginalis ATCC 14019) [pid:30.9%25%2C q_cov:82.1%25%2C s_cov:79.8%25%2C Eval:4.9e-18],MGA_587
sequence23	MetaGeneAnnotator	CDS	3050	4006	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLHFYKTRFESELTNFFSQNGPKYLYDPIKYFMLSGGKRLRPSIVLFLGDILKNNPDDMMNAALGVEFLHCFSLVHDDIMDEDDLRHNQETIHKKWDNASAVLSGDGLGALGPIYISKIEKNTLEILRKYNRVILEICEGQAYDMQFENQNIVSDDYILMSSKKTGVLFQLCFEIPIINNGDNSELLELFSLIGLNLGIIFQIQDDVLEIDNHQTEIGKSIFSDIKRNKKTILTSLAFEHLGENWLDFQNSISQHPHSLKRTMLIQYLKDKKVDVLARDKVDFYKNKVFENVKELPKIFQDPIKETISLIIRRKK;locus_tag=LOCUS_5630;note=WP_010868037.1 serralysin (Pyrococcus abyssi GE5) [pid:37.0%25%2C q_cov:73.6%25%2C s_cov:68.8%25%2C Eval:4.4e-39%2C partial hit],MGA_588
sequence23	MetaGeneAnnotator	CDS	4006	4974	.	+	0	ID=MGA_589;product=bifunctional phosphoglucose/phosphomannose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66954;translation=MFNALKDFSNHINSVILELKVFDFPYRKFDKVVIAGMGGSAIAGSIAKELASFEHVIFIERGYKPTVKIDNNTLVIVSSYSGNTEETLSYFSKILNQTTMIYGICSGGKLLEELKKNNFPHYLLPGGFSPRATLGFTLTLLIKILNEELLENYDLNLFNILTESFPTENSIVYSDALKIFDAFPVIVTEEENLSIGYRFKCQLNENSKMLAYNLSIPEMNHNEIIGWEGDLIDKDFCIIFLIDEVNSYHRNKKRKEITSKILPDKVKQLDIELPSQISNNLLMKYFYWIHYTDWVSYWCGILRNVDIEAVKSIDLLKKQLSS;locus_tag=LOCUS_5640;note=O66954 bifunctional phosphoglucose/phosphomannose isomerase (Aquifex aeolicus VF5) [pid:35.9%25%2C q_cov:87.6%25%2C s_cov:87.5%25%2C Eval:2.5e-34],MGA_589
sequence23	MetaGeneAnnotator	CDS	4967	6190	.	-	0	ID=MGA_590;product=3-oxoacyl-[acyl-carrier-protein] synthase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RJX3;translation=MSRRVVITGTGSISSLGSNSDQLWKNLVLGISGISLLKKIDTESLNIKIGGEILDYDSNNFFEEKDSKKLDLFSQYALIAADQAIQQSQINTNNVGVIIGTGVGGMNTLENEHEKYISRGQRGVSPYYVPKMIPNIAGGQIAIKYDFRGINFSISTACSSATDSIGISFKLIQNGMINTIICGGSEAGITPLTISGFSNMKALSKNNDNPEKASRPFDKMRDGFVLSEGSGIIILEELEHAKKRGAIILGEIIGYGSTNDAYHITQPHSESIGASSAIDKALKDAKIVPEMVSYINAHGTSTYYNDLLETNAIKKSFTNCSKNVSISSTKSMTGHLLGATGAIEAIACTYAINNSLIPPTINLENIDPECDLDYTPNLAKEKKVEIAMSNSFGFGGHNSVLLIKKFS;locus_tag=LOCUS_5650;EC_number=2.3.1.179;note=Q2RJX3 3-oxoacyl-[acyl-carrier-protein] synthase 2 (Moorella thermoacetica ATCC 39073) [pid:47.8%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.8e-110],MGA_590
sequence23	MetaGeneAnnotator	CDS	6195	6425	.	-	0	ID=MGA_591;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0A2W2;translation=MSHDEKVISIISEKLSVDKSRVVSEASFLDDLGADSLDTVELIMEFEEEFDIEIPDEDAESITTVGSAISYINKNA;locus_tag=LOCUS_5660;gene=acpP;note=P0A2W2 acyl carrier protein (Vibrio parahaemolyticus RIMD 2210633) [pid:58.6%25%2C q_cov:92.1%25%2C s_cov:90.9%25%2C Eval:1.4e-15],MGA_591
sequence23	MetaGeneAnnotator	CDS	6437	7171	.	-	0	ID=MGA_592;product=3-oxoacyl-[acyl-carrier-protein] reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67610;translation=MFQFSNNLCAVVTGGSRGIGKEIACRLAEENIKVYALASSKESLKNIENITNLYPIQCDISSRDSINDFFQIIEEENQSIDILVNNAGIHRDNILLRMSEKDWMDVIDINLHAPFHLMKHALKGMIKKNFGRIINISSISGTDGNKGQSNYAASKGGLIALTKSLAKEVGKRNILVNCIAPGVIETDMISHFSETIKKSYFERIPLNKFGQPSDIANIVHFLCSDEASYITGQTFYIDGGMSLN;locus_tag=LOCUS_5670;gene=fabG;EC_number=1.1.1.100;note=O67610 3-oxoacyl-[acyl-carrier-protein] reductase FabG (Aquifex aeolicus VF5) [pid:49.2%25%2C q_cov:95.1%25%2C s_cov:96.0%25%2C Eval:5.3e-57],MGA_592
sequence23	MetaGeneAnnotator	CDS	7173	8063	.	-	0	ID=MGA_593;product=malonyl CoA-acyl carrier protein transacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64U24;translation=MSHVLIFTGQGSHRPGMGYNLYNEFPNVKSKFDNAESILGFNIKEIMFSDNEELLRKTKYAQIAIYLYSVCLFDLLSPKIWEIKAVAGHSLGEFSALYSNQTYTFETGLRIVHARSKAMNICEENYPGAMSAVIGIEKEKLDQICKLYSSQIANINSVNQIVISGTTESVKKTSEHLNSLKIKSIPLKVSGAFHSNLMSDAKDSLKKIIEASEFFEPKIPVISNIDAKAKVEINEIKNALIHQVDSPVLWYDSVLRLKSFSNSFVELGPKSVLSAMVKKIDNSLQTNHYNSYNDLI;locus_tag=LOCUS_5680;EC_number=2.3.1.39;note=Q64U24 malonyl CoA-acyl carrier protein transacylase (Bacteroides fragilis YCH46) [pid:39.6%25%2C q_cov:95.3%25%2C s_cov:97.6%25%2C Eval:1.5e-49],MGA_593
sequence23	MetaGeneAnnotator	CDS	8063	8239	.	-	0	ID=MGA_594;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6H261;translation=MLPKKRQSKARSKKRRTHYKSSLVHTVKCKNTGESHLPHQAYEHDGILYYKGKPIDEK;locus_tag=LOCUS_5690;gene=rpmF;note=A6H261 50S ribosomal protein L32 (Flavobacterium psychrophilum JIP02/86) [pid:46.4%25%2C q_cov:96.6%25%2C s_cov:87.5%25%2C Eval:9.2e-10],MGA_594
sequence23	MetaGeneAnnotator	CDS	8297	8668	.	-	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKLIIFIILISSLFSQNKESSWLEIKLNSSSDSVSKNITAHDSSYFTIQIAAKKSFSEAYEMVQELNNQKIEAYIQKNENDFQFNYRVRFGYFSNRNNAEKFLINLKELTNCECWIDRIEL;locus_tag=LOCUS_5700;note=MGA_595
sequence23	MetaGeneAnnotator	CDS	8668	9063	.	-	0	ID=MGA_596;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9PIG7;translation=MIYTLAIIKPDAMKKGYKEDIRSEILDNGFKIAEEKTIHLSKEQAERFYAVHKDKPFFIELVEFMTSFESHIMKLEKENAVIEWRNLMGATDPSKADQGTIRSKFGTDISMNATHGSDSNENATIEINHFF;locus_tag=LOCUS_5710;gene=ndk;EC_number=2.7.4.6;note=Q9PIG7 nucleoside diphosphate kinase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:57.0%25%2C q_cov:97.7%25%2C s_cov:93.4%25%2C Eval:3.7e-32],MGA_596
sequence23	MetaGeneAnnotator	CDS	9060	9941	.	-	0	ID=MGA_597;product=succinate--CoA ligase [ADP-forming] subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q819X1;translation=MSILLKKETSILVQGITGSEGLFHTEQMIDYGSNILCGVTPGKGGQYATKNNLPVFNSIEDAMKKFKIDASIIFVPPRFAANAILEAIEEKISLIVCISEGIPVRDMKRVKIALDASSSILIGPNCPGLISAEESKMGITPGFICKKGPIGILSKSGTLTYEAIDQIVNIGYGISTAVGIGGDPIIGSSMIDILKHFENDPETEAVVLIGEIGGNMENEAAKWIKNNFSKPVVSFIAGQTAPKGKRMGHAGAIISEGSETAEAKIKTLKECGISVSKTVSEIGITMKKLLGEK;locus_tag=LOCUS_5720;EC_number=6.2.1.5;note=Q819X1 succinate--CoA ligase [ADP-forming] subunit alpha (Bacillus cereus ATCC 14579) [pid:58.4%25%2C q_cov:100.0%25%2C s_cov:97.0%25%2C Eval:1.7e-95],MGA_597
sequence23	MetaGeneAnnotator	misc_feature	9941	10518	.	-	.	ID=MGA_598;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q8F746:succinate--CoA ligase [ADP-forming] subunit beta,Q8F746 succinate--CoA ligase [ADP-forming] subunit beta (Leptospira interrogans serovar Lai str. 56601) [pid:61.6%25%2C q_cov:99.5%25%2C s_cov:48.7%25%2C Eval:2.0e-65%2C partial hit],MGA_598;locus_tag=LOCUS_5730
sequence24	MetaGeneAnnotator	CDS	46	1236	.	-	0	ID=MGA_599;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000348045.1;translation=MNVTDKDFLEIKSKVSKIIDRLIVDEAPYLQKHNFSQTIDFLEQYRQEVKSAGLYTPQISKENGGLGLNLYQLGQLYEIFGQAFFGLYIFNCQAPDAGNMEILLEHGTSDQVEQFLNPLLEGKIRSCFSMTEPDNPGSNPTLMNTTAIKDGNDYIINGHKWFTSSADGASFAIVMAITDPSNSNPYLRASQFIVPTNTPGFQIVRNISVMGDEGDGWMSHAEVKYTHCRVPSSFLLGKEGQGFSIAQERLGPGRIHHCMRWIGISERAFHLMCQHATSRKINANQTLADQQITQSWIADSKVEINAARLLVLDAAKKIDHQGAKEAKIEISMIKFFVANVLQKVLDRAIQLHGALGMTDDTPLALWYRHERAARIYDGPDEVHKLRVAREILKQYS;locus_tag=LOCUS_5740;gene=caiA;note=WP_000348045.1 acyl-CoA dehydrogenase (Leptospira interrogans serovar Lai str. 56601) [pid:41.1%25%2C q_cov:96.7%25%2C s_cov:95.9%25%2C Eval:8.5e-78],MGA_599
sequence24	MetaGeneAnnotator	CDS	1237	1950	.	-	0	ID=MGA_600;product=histidine phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003113600.1;translation=MNNHISKHLFFVRHGQASFGEANYDNLSQQGWQQSELLGQALKKDHHNFQKIFSGPHQRHFQTFQGIEKGYGEKMSSCETIQGFAENQLMEIAMYFIPKMLNSDLPAQAIFKQMPIENRDGEFLKLFQQVAKKWMKNELDLSEKKFESYPDFLSRIQQTIAYLDSATDSGDNVLIVTSGGTITAVYALATQCSDEEILKLNFGIKNVSVTDFNYYNNTLDLKTFNKSYLPKEFETYI;locus_tag=LOCUS_5750;note=WP_003113600.1 histidine phosphatase family protein (Pseudomonas aeruginosa PAO1) [pid:29.1%25%2C q_cov:91.6%25%2C s_cov:91.5%25%2C Eval:1.3e-17],MGA_600
sequence24	MetaGeneAnnotator	CDS	1943	2398	.	-	0	ID=MGA_601;product=putative enoyl-CoA hydratase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7U2S5;translation=MNIFNDLNEVEKLLGEELGKSAWKKVSQSRIWAFGRVTNDNQWIHTNPLMAKKFSPYKKPIAHGFLVLSFIPSMLNEIYSIKSVKMAVNYGLNKVRFTAPVVVNSRIRASLALQEFKRLKNGAKLILEVTIEIEGESKPACVAEQVILLYE;locus_tag=LOCUS_5760;EC_number=4.2.1.17;note=Q7U2S5 putative enoyl-CoA hydratase 1 (Mycobacterium bovis AF2122/97) [pid:41.9%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:4.5e-30],MGA_601
sequence24	MetaGeneAnnotator	CDS	2425	3708	.	-	0	ID=MGA_602;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066453.1;translation=MALPIVAGMLVQTLFNVIDIMFIGWVGADEITAVAFVSPLFFIIIGLAVGLGAGVTATIAQYIGKKDKESADKVANQTILIGLVITLFLTILGEFFAKDLMTLLGAEGEILNIALSYLKILIYGIGLVVFSLFFRAILAGEGETKIPMYIGLFGTIMNLILDPIFIFTLDLKVPGAAIATVLSQLFMVVAYIYYIFIKKSTYLSFRFPDFQFNKPILSKIFQIGIPSSLSMLIISFGQVVMNRILINYSNEAVAAYQVVSRLDMLIFIPILGIAISLTTIVGMFYGAQEFEKLRGIVAYGLRHATILTLLLVIVLYISASKILPLFSENQDVIAIGVTYLKIIVLVYPFVGYSVICSRICQALGKGVPLLVTTITRVLLITAPLSYYFYIIQKPIEYVWYAQVIAIIFAALISYIWMRYYFKKFAIV;locus_tag=LOCUS_5770;note=WP_048066453.1 MATE family efflux transporter (Methanosarcina acetivorans C2A) [pid:32.0%25%2C q_cov:98.4%25%2C s_cov:85.7%25%2C Eval:3.5e-64],MGA_602
sequence24	MetaGeneAnnotator	CDS	3774	4268	.	-	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFSKELIGILLFLSISFSQESKLDMSKQKENLTEMQFYVTQLCGTEPAFDNEFWNHKEKGIYIDIVSGEALFASVHKYDSGSGWPSFYETIDKKSLTFENDYTLIMPRKEVKGKTSDSHLGHVFNDGPNPTGLRYCINSAALKFIPLDEMKKRGYGEFLYLFD;locus_tag=LOCUS_5780;note=WP_005479994.1 peptide-methionine (R)-S-oxide reductase (Vibrio parahaemolyticus RIMD 2210633) [pid:58.7%25%2C q_cov:87.2%25%2C s_cov:37.6%25%2C Eval:1.1e-46%2C partial hit],MGA_603
sequence24	MetaGeneAnnotator	CDS	4398	7541	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIKSSFQFLFVFLTAMSFVFAQTVSGTVSGVDGETLAGANIMVEGTDMGSSSNTDGSYSISGLSNGSYTITASYIGYESESITVTISGGQTASADFMLDKGNLRLNQVVVSASLKKELVTEAPASVEVFSGEELEARQGATIVDAFANRAGVETMKTGIESSNMTVRGFNGVFSGAIHAVLDNRWVRAPVVNAQLLQFMNADDSDVARVELVRGPAAPMYGPDTQQGVLSIFTKSPFDQGNRVSMTLGERNYQKVYGRIAQQWMGGRAATRVTLLHRTFEDWSSNMPKTIQEAQAEGHLYYEPEYIRRGMPIPTYPYIDYASSEFGDPEGGVLNSAAHSEPFKPSVTSIDMKTEIRPDLKSTLTINLRQAQLSAIEMTGVGRALSDDTTLSQAQIAYNRQDFLGGNLFINFFTNINEQKTTYLLNTGNIIYDESSNRALQLQHSLDLRNGQSLVWGLDYLDRTPETKGTINGKNEDNDNFNNVGIYYSYEKKFSDRFKFVNSGRIDNNNYLRAIGTDYVFAPKIGFVWNNPDVRGNFRLTYGENIDLPGNFTKNLDIAAASNVVYAGLGINFAPLLGFQPDFSVKAMGSTTTGWTYQKDANGNTMFRSNWSTALGLDTNTYYSMNNNTINAAAWGVWAPIIGGGFLQSADGAAFLTAYGSAVGQAAGAGYMEQVVTTVYTQTYQGYIDAGADAATAAAAAQAAAAAAAEDPTYLAAAAAYGAEYGANAAATGAGDLVAMLGATAPSAFGNVTIDLDGNVLNPNTSFPDYPQIKETTWAQTEFGYKGLVGDNMSLTVDVYNLKVSNYVTALQNISGLTNVVGDGGSYVASLATYLATQGNENLANMVGAFDSPLAGGNGNGTGLDDLAAAIIGGVARVPIGAIAPAQSLYGGNLVYGYKQLTNDLHLNGLEATLNYFPNNSWNFYGNVSLLDKNSIDVDFEGVTNTVNMNTPKFKLGAGMQYIGDGESYGLSLRYQDSYYSDGFSGNAGRIESFYTLSLNAKWDVDMFEGMSVGVSIDNLTDIVHRETFLGPEMGRFSTLSVGYDF;locus_tag=LOCUS_5790;note=WP_011107297.1 TonB-dependent receptor (Bacteroides thetaiotaomicron VPI-5482) [pid:28.2%25%2C q_cov:23.8%25%2C s_cov:34.5%25%2C Eval:1.6e-21%2C partial hit],MGA_604
sequence24	MetaGeneAnnotator	CDS	7614	8561	.	-	0	ID=MGA_605;product=serine/threonine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015888022.1;translation=MLDHRPNLNDILDAQERISSIAKVTPVLTSEFFNDMLGMDLYFKCENFQTTGSFKIRGASNAIFGLNEEEKSRGVACQSSGNHGGAIACAANSKNIHADIVMIRSVSKAKIENVKRYNGNMVFCDKMSERDALYAKTIEDNNRVAIHPYDNYDVIAGQGTIGLEILEQVSGFDGVLVPIGGGGLISGISIALKGKSSRAKIIGCEPLNVDDTYQMYNAQKRIPMEHRPSIADGLMAIVGQLTLPIIQENVDDIILATEDEIIKTTKLMWEQMKIVIEPSCALTLAALIANKEKFQGQKLVLIITGGNVDLTSLPW;locus_tag=LOCUS_5800;EC_number=5.1.1.-;note=WP_015888022.1 serine/threonine dehydratase (Sinorhizobium fredii NGR234) [pid:44.1%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:9.2e-74],MGA_605
sequence24	MetaGeneAnnotator	misc_feature	8562	9405	.	-	.	ID=MGA_606;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011403140.1:alpha-amylase,WP_011403140.1 alpha-amylase (Salinibacter ruber DSM 13855) [pid:38.6%25%2C q_cov:31.4%25%2C s_cov:6.4%25%2C Eval:7.9e-10%2C partial hit],MGA_606;locus_tag=LOCUS_5810
sequence25	MetaGeneAnnotator	CDS	440	946	.	+	0	ID=MGA_608;product=putative thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6GZY8;translation=MTQVLLGETVVQLNGNLPLVGSQAPDFLLVEGKNLENRSLSDYFGKRIVMNIFPTINTPVCSASAKRFNEIVETLNDVIVLCISKDLPWNQENFCSEYGLNNVVFLSDMRNHQFGEKYGIIHQNAKFQGLLARCVLVLNQNGTIEYTELVEQTGHEPDYDKVLEILQK;locus_tag=LOCUS_5820;gene=tpx;EC_number=1.11.1.-;note=A6GZY8 putative thiol peroxidase (Flavobacterium psychrophilum JIP02/86) [pid:43.4%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:1.3e-34],MGA_608
sequence25	MetaGeneAnnotator	CDS	947	1822	.	-	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILIAIGGIDFSKPTLNMGIEIASALEASSTIAYVGKKISQFSEKDVSVVHQSLDNRQLYRPGIRTLEWACNFLETKGYLDSDSSANFDDHLLIDEDNSRMKVLLKSNNSNNIDLILRTGEIIDQLRDEVFSNGHDITVVGGGKNKGIYHDLIEFIHSSILVVKNFSFNKKYKILLPINNTKGSKKATEMAIRLAQHYKTEIHIVYVKDKKEQDVVKSIETTSNQLSKLKIKNETFLLEGDPVKSITEFAKDDYIISLGVSNKNPIKNFFFGSKPISISKQCNCPVLLVK;locus_tag=LOCUS_5830;note=WP_064496534.1 universal stress protein (Methanocaldococcus jannaschii DSM 2661) [pid:26.2%25%2C q_cov:40.5%25%2C s_cov:94.5%25%2C Eval:3.0e-07%2C partial hit],MGA_609
sequence25	MetaGeneAnnotator	CDS	1819	3228	.	-	0	ID=MGA_610;product=sodium:sulfate symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393750.1;translation=MNNSNQIILSSVLYWFSQKKWFLFSILIGAILLNFSTPVGLSIPAYHSLIILIMTFILVMTEPIPFPAIALLSLVLQVMLGVVSTEELSSTLMNDAVIFVMGSLMFAIAIIHQGLDIRLAEIILKIFGKSKRMLVGGLMFISSILSSFLGEHTVIALMLPIGLSMIKNLDTSNSDSKNAILLVLFSIAYGTIIGSIGTPSGGARNVIMINYLQEFSDIRIDYWNWMEHAYPILFIQLIVAYVVLQFAFPSTLKNIKLSGYKRDVKKRTPQENMSNLFALVIVLSVVVSWFLFNEKFGLGIIAISGALIFMLFGMINWETINKNTNWGVILLFASTISLGIQINETGASSWLVQKFNFLLSEYFAGSENMSWTFLAIISGITANFFTSSATVSLLGPMAIQLQPHDVTFALSSAIASSFSFLTVISSPAAMIIYSTGLVNTKVFFRVGILMFLSSILILYFMSKFYWIHL;locus_tag=LOCUS_5840;note=WP_011393750.1 sodium:sulfate symporter (Moorella thermoacetica ATCC 39073) [pid:22.3%25%2C q_cov:92.5%25%2C s_cov:85.5%25%2C Eval:8.5e-35],MGA_610
sequence25	MetaGeneAnnotator	CDS	3335	3982	.	+	0	ID=MGA_611;product=cytochrome c;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404835.1;translation=MQIFPKWTNNFPGIFLIGAFLLVFSLSAFIWYYGSPYYTDVGYAPKQPVPYSHKLHAGDLGIDCRYCHVGVEQGYSAVIPPTETCMGCHTYVKTDSDKLELVRQSWETGMPIEWVKVHMLPEYAYFNHSVHVNDGVACITCHGNIAEMEVVYQAEPLSMDWCLDCHRSDSPEVRPVSEVTNMYWTPPADYDKFIASWMVNHAEERPVGDCQKCHR;locus_tag=LOCUS_5850;note=WP_011404835.1 cytochrome c (Salinibacter ruber DSM 13855) [pid:49.8%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:1.4e-57],MGA_611
sequence25	MetaGeneAnnotator	CDS	3970	7035	.	+	0	ID=MGA_612;product=molybdopterin oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256518.1;translation=MSQIKNKNQEFVDVNQPENQTISNQNFGYWKSLKDISSSEDYDKFLKQSEHNEDSNISRRNFMSLIAASVALAGLEGCKKPVQKIIPYVEARRNTIPGIPKYYSTTMPFKNNAFGLVVENHDERPIKIEGNASHSITGGKSNIYVQSSTLNMYDPDRARGVKYKGKKIDWTKYLETIQSLKDNTDSKVAILSGESSSLSVKKIKKDFLKKFPNSSWTIYEPISNENVLLGIEAAFGKKYQPIYNFDKAQIVLSVGSDFLGVDDNSIYNTRTFSSKRNLENENSEMNRLYVAESSMSVTGSSADHRLNIRASEYHNLLVELAHELKQLGMKIEVNAKKSTNNLWIKTVAEDLYVNRKKCIVIGGDSLGAESHELIATINFLLGSNIDYYPSENTSSISDLQVLCKKIKNKEVDTLFILGANPVYDAPADLDFGNLIDLVPNTIHLSNYYDETSKKCDWHIAESHYLETWGDACSIDGYLSIIQPQIQPLFNSKNIINVLSLLVYGEDITSYDFVKNNWKEILASSNFNRSWEKVLHDGFYIKQYVGPVKISRKSSKSYSSQNVQNQDSFELVFTPSPTVYDGRFSNNGWLQELPKPISHLTWDNAAFISLKLAKDLKVRNGQLLRIKSSHSTIEIPVWILPGQNSKTITVELGYGREFSGRIGSGVGFNVYPLRKTDTMHLITGIEIEVLNKNYPLAGTQDHYGLEEDHKAAPGFSSLSSDAIQSRIPEIVKQTTLEEYKKHPDFVIDAVKEHLPDKKRSLADHSMYNPEKEYDYSKGPQWGMSIDLTSCTGCNACSIACQSENNIPVVGKQQVMNGREMHWIRIDNYFSGDPDNPEVSTQSVACVHCELAPCEQVCPVAATTHSTDGVNQMTYNRCLGTRYCANNCPYKVRKFNFYNYTRDLPEVVQMAMNPDVSVRFRGVMEKCTYCYQRVTEARITANKENRDIIDGEIKVACQQSCPADAIKFGDINDPNSEVSKAKKRNRDYALLGQLGTSPRTTYLAKIRNQNPKLVSSHSTKGHH;locus_tag=LOCUS_5860;note=WP_012256518.1 molybdopterin oxidoreductase (Chloroflexus aurantiacus J-10-fl) [pid:38.0%25%2C q_cov:96.3%25%2C s_cov:97.4%25%2C Eval:5.1e-206],MGA_612
sequence25	MetaGeneAnnotator	CDS	7041	8429	.	+	0	ID=MGA_613;product=polysulfide reductase chain C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404833.1;translation=MQKSDYKSRALVNAEQLLPGNQTFTSITNDIAGVPEQKKTPIQWWLLFGLALSLLGVFAGSLGYLIWEGTGIWGINMPVAWGWAIINFVWWVGIGHAGTLISAILHLFRQNWRNAINRFAETMTLFAVICALVFPGIHIGRIWVAYWFFPLPNQMGMWPNFRSPLIWDFFAVFTYFTVSLLFWYTGLIPDLATLRDRAKTSLRKKVYGFFALGWRGGNRQWQHYELAYLVLAGISTPLVLSVHSVVSSDFATSVIPGWHTTIFPPYFVAGAIYSGFGMVMTLSIIARKVYNLGHIITLEHLDKMAQIMLLTGCMVGYAYAMEFFVAWYSGNPYESFAFVNRALGPYWWGYWAMIFCNVVVPQFFWFTKYRRHIPFLFITSILVNIGMWFERFVIVVITLHRDFLPGAWAMYSPTIWDVAIYLGTFGLFFTGFLLFLRFLPMVSIAEAKLVLPESNPHHGDDH;locus_tag=LOCUS_5870;note=WP_011404833.1 polysulfide reductase chain C (Salinibacter ruber DSM 13855) [pid:60.6%25%2C q_cov:91.8%25%2C s_cov:91.2%25%2C Eval:1.9e-164],MGA_613
sequence26	MetaGeneAnnotator	CDS	923	1882	.	-	0	ID=MGA_616;product=asparaginase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_638262.2;translation=MKRRNFLKASALTLASPLLASGDQKVKRNTQNPIVISTWNHGIPANEVSAEILHAGGSALDAVEAGVRVTEADAQNQSVGLGGRPDRKGIVTLDASIMDSQGNAGSVAFLQNIKHPISVARLVMEKTDHVMLAGQGALEFAKEQGFEEENLLTEQSAVGWEEWKRNNNIKDTWGPNDDHDTITSLAQDKNGNIAAACTTSGLAYKLHGRVGDSPIIGAGMFVDNEIGAAGATGVGELVMRTCGSFLVVELMRQGLSPMEACNEAVERIIKKEGKNTKSQVGYIALRKDGEIGYASIHKGFQYALYKNKKNKLFDVPSKI;locus_tag=LOCUS_5880;gene=aspG;note=NP_638262.2 asparaginase (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:51.9%25%2C q_cov:97.8%25%2C s_cov:95.8%25%2C Eval:3.7e-86],MGA_616
sequence26	MetaGeneAnnotator	CDS	1889	2809	.	-	0	ID=MGA_617;product=coenzyme PQQ synthesis protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3DHG4;translation=MKVKYSARVFFFSFVIILSFRVVTAQENPYITVLGIAQDGGYPQSGCLKECCINLWDNPKQSKHVSSLAIVSPNERAFWIIDATPDFPDQLNYLHQELPSYQLAGIFLTHAHIGHYSGLIHLGREVMGLKDISVFVMPKMKEFLQKNGPWSQLVSLKNIKLIDLKDRQTLSLSNDLSIQPIIVPHRDEFSETVAYQIQGKQSLFYVPDIDKWETWNQNIQTIAQENSFTLIDGTFYDTDELPGRDMSEIPHPFIVETMNLLHKEKKGVYFIHLNHSNPLLNEDSKKYKEFTQKGFNIAKQGQKFDL;locus_tag=LOCUS_5890;gene=pqqB;note=A0A0H3DHG4 coenzyme PQQ synthesis protein B (Amycolatopsis mediterranei U32) [pid:23.0%25%2C q_cov:90.2%25%2C s_cov:99.3%25%2C Eval:7.1e-07],MGA_617
sequence26	MetaGeneAnnotator	CDS	2787	4658	.	-	0	ID=MGA_618;product=AMP-dependent synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932828.1;translation=MAFKTIPQMFQQMVEKKPNHQTFFTKQSDGSWNGVTLTELQNWVESFANGLKNLQINDSDKIAIIGSNSPKWAVSDYAISHIRAVSVPVYPTLIPEQAQYVVKHSESKIAIVHDQVQLDKIYPLLSDDSCNLQQIIIMDDSYSGDKALTFKSVCDLKDHQYDIRAHSTTVEETDLLTLIYTSGTTGLPKGVMLTHANVCNNLNNIQELIELALQMKPDMVPADGIERFLSFLPISHSFERVGGHYCIFNQGMQIYYAESMELVINNIQEVKPTFLTAVPRIFEKIHAKIIENVQATSGIKRSLAEWSIKIGSRTVPYIQKNQPLPLLLKLQLAIADKLVLHKFRAVLGGHVRACSSGGSALSKEVGSFFCGIGISIIEGYGLTETSPVMTLGNPKFFKFGTVGKPIPGVEVKIAGDGEILCRGHNVMQGYYKDQEATNEAIDKDGWFYSGDIGEFDEDGLLRITDRKKSLIVTSAGKNVAPQPMEIALTSNKYIEQCSVIGDDRNFITALIVPNRENLSNWATSKGLQSLSYESLCVHEDTYEMFDLIVKDTMSNFSRYESVRKFTLIPQEWTVDNGELTPKMSIKRKVVSQKHQKEIDAMYDPSTAPKKSLEDGTDEGQVFG;locus_tag=LOCUS_5900;note=WP_010932828.1 AMP-dependent synthetase (Chlorobium tepidum TLS) [pid:37.5%25%2C q_cov:96.5%25%2C s_cov:91.4%25%2C Eval:2.0e-114],MGA_618
sequence26	Aragorn:1.2.38	tRNA	4725	4809	.	+	.	ID=Aragorn_29;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0280;note=Aragorn_29
sequence26	MetaGeneAnnotator	CDS	4864	5346	.	-	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSSTEKILSVLMFVLVVAVGFSLMQYNSAMNEMTQLRQEQSEHVDQVNQEFKQRIKNVELDNVGQGKKIQQGQEMILANTKLIYAKADSLGSLIDDLAYEIKRVDRDLTKRIQNLQRDLEGLEDNFDSEKRRARREASDMKKDIKKLMDEVFPPEEEKK;locus_tag=LOCUS_5910;note=MGA_619
sequence26	MetaGeneAnnotator	CDS	5415	6395	.	-	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILNEIKSLLVLILAILFLKETVVELYIVPTSSMERNILKGDMLIGSRYVYGIQIPQKVWIPFTAKSIPTFLPNYRLPAFKSVERGDVVVFEYPRDGVYKYVKRCIGLPGETISIVNREVFINDQLIPLPQNAQFLDFKAQDSNVNDNNIFLKRGNKDNLTAIKIPQKGDILEISLAMDWEYIFPLLLYEGNVVELINEDFDLQLSFTNSSPMDIYRRTGDVSIFKNYVPSKGAKLINPWSEMFKENYLQYIYINGIPLQEFGTYQLNQNYYWMMGDNRDNSEDSRFWGFVPEDKILGQPVITWFSLDLDSYKPRLSRIGKIPN;locus_tag=LOCUS_5920;note=A6GYP1 signal peptidase I (Flavobacterium psychrophilum JIP02/86) [pid:31.4%25%2C q_cov:92.9%25%2C s_cov:65.3%25%2C Eval:6.1e-36%2C partial hit],MGA_620
sequence26	MetaGeneAnnotator	CDS	6392	6943	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIGGVDEVGRGCLAGPVVAGAVILNSPIQGLDDSKKLTKKKREILFSQILESAVCSIGIIWSSEIDQLNILNATKKAMQIAISRLSVRPDYLRIDGMPLEIDIENKGIIGGDSLYPEIMAASIIAKVTRDEIMRSFDFIYPEFRFGKNMGYGTKHHLNLINNHRYTPIHRKSFNPLKSLLQA;locus_tag=LOCUS_5930;note=A3CN38 ribonuclease HII (Streptococcus sanguinis SK36) [pid:50.8%25%2C q_cov:98.4%25%2C s_cov:72.0%25%2C Eval:1.3e-44%2C partial hit],MGA_621
sequence27	MetaGeneAnnotator	CDS	792	1637	.	+	0	ID=MGA_624;product=D-alanine aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HJA8;translation=MKYISYTQKGFTPTEEVSFNFSKNYLSIVRGYQVFTFFRTMNMKPIFLDDHLDRIFSNASSMHMEVPFSKEELKQKVFETLEHNKSSLNELNIMILFAGTTALKYSPLSTDQPIDLYIIISPVKEYSQEYLSGVSLGLFEYARNMGEVKAPFTYFGGILGEHQLVKTKKYDEILFTDQGLILEGSTFSFFAVKGSKIITPPTDGKILESVTRKNVIQNCLDGFEFEERPILVEEISSFDEAFITSANRGVVPVLKIEGLLISSSIGSVTSSIKERYWSLIS;locus_tag=LOCUS_5940;gene=daaA;EC_number=2.6.1.21;note=Q6HJA8 D-alanine aminotransferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:27.8%25%2C q_cov:86.5%25%2C s_cov:80.1%25%2C Eval:3.3e-16],MGA_624
sequence27	MetaGeneAnnotator	CDS	1701	2108	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNFIVVVFLSIFITNCAIPMSDRAVADSNDFTLGKVQSQLTKGMTAAEVVSLFGSPNLVTSTKDGGESWTYDKISQESEASSRSGMGAGSSGNFFGFLTGGKAKSSRESKNLTLMIKFDSNDTVTDFKYQSVKY;locus_tag=LOCUS_5950;note=MGA_625
sequence27	MetaGeneAnnotator	CDS	2109	2678	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRKYFVHFVLVVHFFVVGCAFSVPSTEKTTATQRAIETKEYNISKKELMKASVSTFQDLGYTISVINEEFGIITANKIEPGGQIVEEEPSFNPLVVLGAIFLISALFADDDDHDEERGRWRGRSSNGDTVIIKDETLTATLNITEVSENPLLSSLRINFDSREKKASVQFFKEFFAAIEKSLFLEQNL;locus_tag=LOCUS_5960;note=MGA_626
sequence27	MetaGeneAnnotator	CDS	2727	5702	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGTGTGGAKDQSITLLHRGRSIPIVSDDNSMLITSTYSSLQSREIKIFDDNNTLKQTLYSPNPSQGDDFGQSTFIKDNFLVIGAPGADNGKGAVYLYQKMDDSWNFVVEISNPNSALQNRSHQFGHQVMISDVYLIVSSPFDGHGKVYFFDLDFKNSIPLRYTLEPPIHQRNESRDPELLVEYGFGIDMDLRGDELLIGSDNNAAFYFSTESLNKDFSLMDYEIPYDHTHEYAYDHLFARTVSIGENYLFISSLGCDEGSGKVRFYNKDDLNTYIEVYPEDKINNQYFGYQVSENNSKVIISSFNGSDFYSLEKNTAGEINFTSINKISLKDDQTFGRSFILKEDTLLTENYYNDSIVEFSTQDWSTKREFSLSSTSTESRSAAECQGGVAAGYPCNNVDLLAFMNKASIGGSNRTTTNDIWGWTDSSSGKEYAIVGMSNGTSFVDVSDPENPVYIGILPTATTSSTWRDIKTYNDYAFIVSEAGGHGLQILDLTKLRNFNGSPITFSTDAYYTQFGNAHNIFINESTGYAYAVGTNTCGGGLHVVDIRNPLNPFQAGCFADPNTGRSGTGYVHDTQCVIYQGPDQDYQGKEICFGSNETAVWIVDVSNKITDTVGASTIALGNYSYGYTHQGWLTEDQRYFIQNDELDEYYDYTNNTRTLIWNVENLDNPFIQSSYYGPTPAIDHNNYTVGNKLFMSHYTSGVRILDIGDINGPYELGYFDLYPASNNSSFDGTWSNYPYFESGTIVATGIDEGLYIIKYNPSIQNLPPTDFQLNSLQVVKNPQTAYDITTNSLLVDFSNYADSLRISWTESTDPEGETIDYKLYADGDLSFLNEVTYDFTTRRMYDIQEIVALTDSTNRYVGQLKVFASDGINVTISNAINFYLDPSGIIPKVANISQNYPNPFDQSTTIKFDLPDDGYVSIRIFNAKGQLVRQLVNSDMSKGYKSVVWDGKNESGQEVSSGIYFYQIDSPVNDYSPRFVKAKKMLKL;locus_tag=LOCUS_5970;note=WP_011403910.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:35.9%25%2C q_cov:69.9%25%2C s_cov:80.4%25%2C Eval:4.6e-119%2C partial hit],MGA_627
sequence27	MetaGeneAnnotator	CDS	5703	6311	.	+	0	ID=MGA_628;product=cytochrome b561;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920056.1;translation=MKSLYHWVLSWAESPNGTRFMAFISFAESSFFPIPADPLLIALALGKIRKALYFALVCTVASVLGGVFGYAIGYFLWWSSPNEFSSIANFFFNNVPGFSIEVFRNVQQQYESYNFLVIFLAAFTPIPYKVFSISAGAFFVNLPIFVIASTLGRGLRYFALAFLIKIFGKPIKELLDKYFNLFIIFLAILFIFSYFLVVYFFN;locus_tag=LOCUS_5980;note=WP_010920056.1 cytochrome b561 (Caulobacter crescentus NA1000) [pid:35.2%25%2C q_cov:94.6%25%2C s_cov:89.6%25%2C Eval:6.9e-27],MGA_628
sequence27	MetaGeneAnnotator	CDS	6321	7571	.	+	0	ID=MGA_629;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405434.1;translation=MKHFYWTLLFLFTFLSAQAKINPTVSDITEEDFRSHIGYLASDWLKGRSSGTYGDYKAVEYIKNHFETAGMPRERYVEVQEHFVFKDRRTKKRKVKTYNVIVTLPGQDPLLKDEIVVIGGHYDSVKNVRGKIHNGADDNASGTSMVLELFEKHASTMDNKRTLVFMAFGGEELGLLGSKYFTENPTIDLSKVQIMINLDMVGRLDSEKNLQLGGTATAENLDQMLDPFFDDISLNITELGKGIFSRSDHYSFYKKDIPVLFFFTGLHTDYHSATDEADRVNYSGMMEIAELVNEIVEYFTNKKDRLVFTKAPMEDQQMTTPTKLKGTLGIMPDYAGDIKGLKIDAVIENKAAQKAGIIDNDIVTAINNVSIESIYDYMRIMANLDNEQFCNGPVEGCVLPVGITRGEESLTINVTF;locus_tag=LOCUS_5990;note=WP_011405434.1 aminopeptidase (Salinibacter ruber DSM 13855) [pid:33.1%25%2C q_cov:91.3%25%2C s_cov:100.0%25%2C Eval:3.4e-48],MGA_629
sequence28	MetaGeneAnnotator	CDS	1411	1845	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKISHKGLWIDFSSLEKSEKKLFIKMTVFAFLGGFILGFINDPIIQEKFPSAVYLNLLAVILLVFTGYFWYQFYQTQDELFKQHHDYGLAGGFLGFFVFGGILEILSDFKLLADHNLEFIDFVGCSLIGMIIAQYYFYRKYLK;locus_tag=LOCUS_6000;note=MGA_632
sequence28	MetaGeneAnnotator	CDS	1853	2059	.	+	0	ID=MGA_633;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809912.1;translation=MKNKIKQFREEKKISQQELAELLNVSRQTINSIENGKFDPSLNLTIKIVRFFKKDLEEIFQMNDLKED;locus_tag=LOCUS_6010;note=WP_005809912.1 transcriptional regulator (Desulfitobacterium hafniense Y51) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:95.8%25%2C Eval:2.3e-13],MGA_633
sequence28	MetaGeneAnnotator	CDS	2061	2285	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKIKQHMKQDLATNKTTIFMIYIVAFLMFSSYGRSENDLILNIIVWIMGILIVVTTIYIVTALIFKKMGKLE;locus_tag=LOCUS_6020;note=MGA_634
sequence28	MetaGeneAnnotator	CDS	2282	3172	.	+	0	ID=MGA_635;product=protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008659480.1;translation=MKPRIQNGYLRVIIFMPLWLITMGLSATIGSIIVMQRMGIDMTDESAVQALFSNVSFDSPVLLSMTTFQVLGSFLALWIATRFIDRKPLMSIGLSWENKAKEMLIGLGFAFAFIAGLFLVLMAVGAIKFTGYEGFKPGVFIVSMMLFLAAFDEEIIFRGYILNSMMDSSKNRWIALGGSSLLFALMHAANPGVWSNWVPMTELFAAGFILGISYTFTKNLWFPTFFHFGWNFFQGLLGFEISGINVDSWKMISHKNTGDVPDIVSGGVFGIEGSVITLACTIICTYLIFKYYNEQR;locus_tag=LOCUS_6030;note=WP_008659480.1 protease (Bacteroides fragilis YCH46) [pid:33.0%25%2C q_cov:88.5%25%2C s_cov:88.6%25%2C Eval:2.6e-30],MGA_635
sequence28	MetaGeneAnnotator	CDS	3159	3725	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDKILLLILSVACFAIAYNLYPSATIPEGMHKDPSTGEAMLLNKIKISELQSSPFDSWFNTEFEEYQLDSELLLAIEDFDNVKVEVFLGTWCKDSRREVPRAKKIFDNLGLNENQITWICVDRDKISPDGQEKNKQINYVPTFIFSKNNVEIGRIVESPSSQTASLESDIFEISLGIPPAPNYSNQ;locus_tag=LOCUS_6040;note=WP_011070769.1 thioredoxin (Shewanella oneidensis MR-1) [pid:37.1%25%2C q_cov:61.2%25%2C s_cov:63.5%25%2C Eval:4.0e-15%2C partial hit],MGA_636
sequence28	MetaGeneAnnotator	CDS	3741	3965	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYTLNIEIIGWIGSTFVLFSFMFDGWKMRLLNGIGAAMWLGYGLIQGSLSLAFLNGIIICIHIFKVIQNSNKL;locus_tag=LOCUS_6050;note=MGA_637
sequence28	MetaGeneAnnotator	CDS	3951	4820	.	-	0	ID=MGA_638;product=UV DNA damage endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HAT6;translation=MKLGYPCMNYTIGCKISTFKLQSFSEERLVDSITTNLNNLEKILLYNKENGFGFLRVSSDLIPFASHSIMNIDWSKKFKDHFEKIGNIIKENNFRISFHPGQFVLINSPKIDIFEATVRELEYHIKMLDLMNLDTTAKIQIHVGGVYGDMEAAKSRFIDRYHSLNQKIKNHLVIENDEKSFSLQDCLDIHSETNIPIIFDNLHHEVKNNGETLTEAMQLVQPTWTSKDGVPMVDYSSQQENSVAGKHCDTIDLTHFEGYLSEIINQFDVDIMFEIKDKELSALQALKLI;locus_tag=LOCUS_6060;gene=uvsE;EC_number=3.-.-.-;note=Q6HAT6 UV DNA damage endonuclease ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:35.6%25%2C q_cov:90.7%25%2C s_cov:83.0%25%2C Eval:4.5e-40],MGA_638
sequence28	MetaGeneAnnotator	CDS	4820	5107	.	-	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLQELQNIITQKISEKIQVDEINVYDYTANHENHAMFDGNFHLSMTLVSPDFEGMALIQRHQLIYQILDEYMHGEIHALTMKTLTPDEFKKINS;locus_tag=LOCUS_6070;note=WP_003815785.1 BolA family transcriptional regulator (Bordetella parapertussis Bpp5) [pid:52.6%25%2C q_cov:60.0%25%2C s_cov:67.5%25%2C Eval:5.8e-09%2C partial hit],MGA_639
sequence28	MetaGeneAnnotator	CDS	5122	6723	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSKVNLKIILLTFFLSSCAYFNTLYNAEQHFESAERIRIENIGKTLPPDAVVEYGIVLEKSSKVINDFPESSFVDDARLLKGKSHYFRREYDSAKNIFENLRSDELFVQESIYWLALCKWKDFKVQPAINDLNTLLNQKIDKDLKSRIYLSLGEIYLELDDSARSLENLSLGAELAETREIRELIYYQIAEIAFNNDNFPEAINAYNKVILNTVSPSTTREINLKIIKSNREQGNLKEAKSKIEDLLVDETYKDLTSDLEFELMKIELELGNRDYALENFDRIGQSNPNTAISIESFYILSQESLKESEIDFDKIIFFSNQALKQNINHPLKPLLRNRIESLEQINKIIKSNKGKMTDNELFAIGELLAFNLNSKEQSVTYFKKILSDYTESDFLPQTNYFLYTYFRDNSSAEAEIYKQFLLNRYPNSDYAYAIIFNEEIPLEHQSSKLLLQAEKELLNNNVESSIKIYNQIIEIDSASSFSAIAALFLGDYYDDISDFESAKVYYNWLIENHKGSKQADFASNRLKIINVE;locus_tag=LOCUS_6080;note=MGA_640
sequence29	MetaGeneAnnotator	CDS	278	1363	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKKDNKAMVIYFDVKELYYLPQYLPVFHQLIDRGYQKIVFVFHHGKFDQQVQEIIEANDLISKWVQNDTEARDLYIHYKPNWIFFGNSFPYLEEIHNHSKTAQMGHGVGPKSSYYTKSSTPNTVRFVEGEFRKIKLESMFPNNQFVNTGFSKLDPILNGTAEKIDIQKIGLSNKKKTILYAPTFYPSSIERFPKNFPKILNEFNIIIKPHFFTHSKQKYKNQQKILKFWGQHENVFVTSPKAFSLVPFLSTADIMISDASSAVLEFAAIGKPVIVCKFLKLRWNYRGIFSFRFKQRMSSDFNFYSNFAFIADDFSQLTTHLNALSTFQFNPEQKKFITKMIGSLDGNASKRIVDYLEEN;locus_tag=LOCUS_6090;note=MGA_643
sequence29	MetaGeneAnnotator	CDS	1377	1790	.	+	0	ID=MGA_644;product=cytidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012803921.1;translation=MKKIGYTTGVFDLFHIGHLNILKRARLECDYLIVGITTDELAFSVKKKNPVIPFQERMEIIEAIKFVDEVVPQTTYDKFEAWNNLKFDRMFVGDDWKGTDEWIKIEKIFSKKNVEIIYFPYTTHTSSSKLREVLAKI;locus_tag=LOCUS_6100;note=WP_012803921.1 cytidyltransferase (Brachybacterium faecium DSM 4810) [pid:48.9%25%2C q_cov:98.5%25%2C s_cov:91.2%25%2C Eval:1.8e-34],MGA_644
sequence29	MetaGeneAnnotator	CDS	1796	2629	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINSTFPFEELSHEKYELEKRRQQVELLKLQEWVIKRKKRVAIVFEGRDAAGKGSTIKRFIEHLIPKNAHVIELGIPSKKQSKFWFNTYEKLLPEPGQIHFFDRSWYSRALIHPTMGYCSENQYHYFMKKIVSWEEKLINDGLILIKFYLSVSKENQSLRFKIRQNDKLKYWKFSNNDLIAFSKWDVFTNYKEQMFNHTSTEKSPWVVINANNKMIARLNALRYVLTHIDYQGKRELKPKKWSRVSHEKEIELNGVMFKNLTKEQYDVLHKIKANS;locus_tag=LOCUS_6110;note=WP_003819675.1 polyphosphate kinase 2 (Bordetella parapertussis Bpp5) [pid:49.4%25%2C q_cov:82.7%25%2C s_cov:67.3%25%2C Eval:2.0e-58%2C partial hit],MGA_645
sequence29	MetaGeneAnnotator	CDS	2595	3077	.	+	0	ID=MGA_646;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962822.1;translation=MMSYIKLKPTPRLDTAGGIVLLNQKILFIKKRGIWDLPKGKIEFDDSIDVTALREIHEETGLELEKLDIIGKLPSTKYYIWDGKDYILKKNFWRIIVYRGLPDVKLIPDQLEGITKCRWKSITKISKVQKKTHSRISYLIDYFLNDPNFEIYLKESQSRI;locus_tag=LOCUS_6120;note=WP_011962822.1 NUDIX domain-containing protein (Flavobacterium psychrophilum JIP02/86) [pid:34.5%25%2C q_cov:84.4%25%2C s_cov:93.0%25%2C Eval:9.2e-11],MGA_646
sequence29	MetaGeneAnnotator	CDS	3062	3304	.	-	0	ID=MGA_647;product=glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HU55;translation=MKLNPKTDHIIIYTTSWCGPCKMAKQFLKDQGCSFEEIDIEENSISRQEMSSKTKGTSVPQIVINGVPVGGFTDLLQILD;locus_tag=LOCUS_6130;gene=grx;note=Q9HU55 glutaredoxin (Pseudomonas aeruginosa PAO1) [pid:43.9%25%2C q_cov:82.5%25%2C s_cov:78.6%25%2C Eval:1.0e-08],MGA_647
sequence29	MetaGeneAnnotator	CDS	3465	3695	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLINQFGQMLQSNQNLLLGLTLWEAFWTLIALWFSARNNHKVWFLVCGIMNFFGLIELFYLFSKTNFFKSFRFDE;locus_tag=LOCUS_6140;note=MGA_648
sequence29	MetaGeneAnnotator	CDS	3688	3891	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKHFPTIIATIMLIAMLALMSNCQVKTDVPVDYNSPMQSNEHLDENGNPMKRRIVNYEFQREKQNP;locus_tag=LOCUS_6150;note=MGA_649
sequence29	MetaGeneAnnotator	CDS	4175	4792	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGRNNSAQLSYSLGTVLSEKILDTLILSVSILAFVLIGFMGFLNTKLIVLNIFLVLLALILIFSQLTFLDKVKNRFPKFDNFMEGISIISHYKFKLLFLSVIFWLNVPLYTYYTMLSLGVEMNFEETMVLTILSTIGIAIPLAPGAIGTFHLAVIYCLNTIYSYDLSIAQSAAILLHGINFLYIVLVGYWYFYQEKKEIRYAH;locus_tag=LOCUS_6160;note=MGA_650
sequence29	MetaGeneAnnotator	CDS	4782	5657	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINGLIWVASSYFLALSVGYFSTTFFLDRSILFQVFIADIAATFIIYFFSVWKNNSSFYDPYWSIIPPFLAFFWIQKNNISLSIESILLISAILFWSIRLTANWIKTWEGLHHEDWRYIDMRNKMGRWFQILGNLGGIHFFPTLIVFFCCMPFMYIGSSKPNMLVLFLGIFISIVGVILEIISDFQLHQFRQKNSGKKGIIESGLWKYSRHPNYYGEILFWWGMYVFGFSYQGFNYLIFAPISMTLMFIFASIPWIENKILRTRPEYKDYQKRVHILFPEITIFKRLIGR;locus_tag=LOCUS_6170;note=WP_010942960.1 hypothetical protein (Geobacter sulfurreducens PCA) [pid:31.1%25%2C q_cov:66.0%25%2C s_cov:75.4%25%2C Eval:3.5e-24%2C partial hit],MGA_651
sequence29	MetaGeneAnnotator	CDS	5914	6636	.	-	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTILDDPRYNHLAKPRTVLFQIFSFLFDLYANSMLLFYARVKIIGKENIPKDTPFIFVSNHNSHMDIAVLAFSTKMGYEKFGFLAAKDYWFDNSFNRIFFKNFINLIPISRNTSGKDSIDIEDTFLLTKAFMSLNNNIIMFPEGSRGEAGQLQRFRKGAMRFSLGLNVPILPAAIVGTEKVWPKGEWFMKPGKITIKILPPIYPKDSSKMSEQEINKEISSKTIELQEIVQQGLAELT;locus_tag=LOCUS_6180;note=WP_015776686.1 1-acyl-sn-glycerol-3-phosphate acyltransferase (Brachybacterium faecium DSM 4810) [pid:34.6%25%2C q_cov:64.6%25%2C s_cov:47.8%25%2C Eval:3.8e-20%2C partial hit],MGA_652
sequence29	MetaGeneAnnotator	CDS	6637	7431	.	-	0	ID=MGA_653;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000147802.1;translation=MSFYGKNIVITGASSGIGEAVAKEFLSLGSKVILIARSIDKMKDSFKNYPAENVSFYSFDLTNLDGIEGLISQIITEHKQIDILFNNAGISQFGQFQGSSLKVINDIMQLDYFSVVYMTKYVLEHMIKNGTGHIVTNTSVAGKIPSRNRTAYSSAKYALHGFFDSLRIEVANQNIDITLVAPGRVDTGIGISALTESGKPYGKNDRGHSNGLSVQSAAKKIIKAIKSKKREAIISKWSDIANLGIMLRNFFPSLYFALAKKIKA;locus_tag=LOCUS_6190;EC_number=1.1.1.-;note=WP_000147802.1 oxidoreductase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:34.7%25%2C q_cov:97.0%25%2C s_cov:95.5%25%2C Eval:5.5e-34],MGA_653
sequence30	MetaGeneAnnotator	CDS	401	1180	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEISEVKLTAEFINHANQNRSIKDVQFLKTNKLKLVEELNIIGSTISAVSRGKELKLFFNQEPVVISLGMTGCFKNFKKRGYKNKHWKHGHIRFYMSDDTWFVWSDVRRFGKSVSTNWNPLRGPDIFNEEQLFKSNILENTNHPDFTKPAHIALMNQRWFNGIGNYLRAEILGKWNKNPFQPMKQLLNEPFLDHLIEQVHDSYRLGGGELYSWMNENKSSNNYDFHQWMKFYGKTVKTIDPQGRTFWYQKKWGKYLLK;locus_tag=LOCUS_6200;note=MGA_655
sequence30	MetaGeneAnnotator	CDS	1209	1568	.	+	0	ID=MGA_656;product=cupin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003978039.1;translation=MGIVNKKKFDHHDELRQPDKARIELLKFPAGTVGRFTLQPGWKWTESVGPIAGTATCQAPHLGIVVEGSLTIFGDDGSEESFGPGDAYQILPGHTAEVNGDHPVICYEFDSSTAESYAK;locus_tag=LOCUS_6210;note=WP_003978039.1 cupin (Streptomyces coelicolor A3(2)) [pid:41.0%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:7.4e-20],MGA_656
sequence30	MetaGeneAnnotator	CDS	1565	1777	.	+	0	ID=MGA_657;product=PspC domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816072.1;translation=MTSMKRLYRNTQEKKIAGICSGLGDYFDIDPVIIRLIFLFALLCGGTGILIYIIAWFIVPKQLELHSRNL;locus_tag=LOCUS_6220;note=WP_005816072.1 PspC domain-containing protein (Desulfitobacterium hafniense Y51) [pid:52.6%25%2C q_cov:81.4%25%2C s_cov:83.8%25%2C Eval:4.7e-14],MGA_657
sequence30	MetaGeneAnnotator	CDS	1781	2209	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLTTFLFLGILSAQSEHHSQSIETVVYQFMQAINTNDADLAQSLVLEDAMITRVLIREGISNSKNISMNQFIEDIRTRTIEVEERIWNLKIESNDNIATAWMDYDFHIEGNYSHQGSNVLFLTKTSDGWKISQVLFDMQI;locus_tag=LOCUS_6230;note=MGA_658
sequence30	MetaGeneAnnotator	CDS	2210	2374	.	-	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSNRIVRSERARSRRRTLKSIKIDLFERYCENMRSLRKKYQKIKARHLTDNL;locus_tag=LOCUS_6240;note=MGA_659
sequence30	MetaGeneAnnotator	CDS	2501	3199	.	-	0	ID=MGA_660;product=xanthorhodopsin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404249.1;translation=MFINFLFGMDPSTLTGFTFFVVNMALLASALFFWIERDNVNPKWKTSLTVSGLVTFIAAVHYFYMRGTDGVETVAIRYIDWLITVPLLMIELYIVLLAVTNVSSSVFKKLLAFTTLMLVFGYLGETEAMGFSHMTGFIASCVFWLLALREIWSGEANEANAGSSNAAGQYAYTTLRKIITFGWIIYPLGYALGYFGGGVNMDTVNQVYNLADFINKILPGVVVWAAARMDTK;locus_tag=LOCUS_6250;note=WP_011404249.1 xanthorhodopsin (Salinibacter ruber DSM 13855) [pid:30.1%25%2C q_cov:91.4%25%2C s_cov:85.3%25%2C Eval:8.3e-17],MGA_660
sequence30	MetaGeneAnnotator	CDS	3388	4203	.	+	0	ID=MGA_661;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963353.1;translation=MGKLKKLFQVLSYLFPSLFISIALKKISTPTQRPLSDKELSFLHSAEQTSIPFMKGSIQVYQWGKGRQIIGMIHGWEGRTSDFSTIIETLQDDFTVIAFDAPSHGLSSRQPTTFFDFIEAVQTVISQYPIKHIISHSFGSVAVLNMLANYPQHIEKIAMFTSPNRFKDRMLFSAEQAGMHPKTIEKFMRSVEKRFKIKIDELNVSDIVSKIAIKDKLILHDIDDKVVSLDQSKQIQAAWNNVELQEFQGTGHYRILHSKQAMRKLKTFLLS;locus_tag=LOCUS_6260;note=WP_011963353.1 alpha/beta hydrolase (Flavobacterium psychrophilum JIP02/86) [pid:28.5%25%2C q_cov:95.9%25%2C s_cov:92.5%25%2C Eval:4.8e-25],MGA_661
sequence30	MetaGeneAnnotator	CDS	4192	5154	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKIKYFLIIVLFFIGCGDRILQPIPPAPNTTYQPGNTYGNPLGHIQYLVGNTPIIITIPHGGNLTPSTIPVIDSELYQEINTKELSERLVYHIFELTGGKYPHVIYSNVHPSHFNVDTTLVEGTANNTYAVQGYTSYHSFLEAAVDTVLSRFPVGFLIDLHAENSHSQEVEIGYGLSKVELDLPNGALNEEGLQSVSTIEQYAQISPSFFSDILRGGTSLGAKISSETYYYANPGGAITAFQFDVVPSNQIPQVHSDYKSKSYTSKLYHETKGINSLTLSFPVDNSISSAAAYNAFASLFVENLRSSVLSHTQIDLLGQ;locus_tag=LOCUS_6270;note=MGA_662
sequence30	MetaGeneAnnotator	CDS	5283	5792	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNANIDGDSSSMVQGDYFGISKNIGILFFNTPFNVGLQFANRGGQQTINLNDFVLPGNPPSEESIDFNYEAEFLDLWINATINIGNNSFYLGPVYSMNLSSTMDDLILPAIYDVDVSMFDIKEGNLGLMLGTSWHLFRLVGLSLETYQGLENNDKQRLSSYNLKLSIGL;locus_tag=LOCUS_6280;note=MGA_663
sequence30	MetaGeneAnnotator	CDS	5924	6949	.	-	0	ID=MGA_664;product=luciferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708897.1;translation=MEIGIDSFASLENPLDRSPEHRHQSMQDLLERIKLADDCGLSAYGIGEHHRPEYLDSAAHNILSAAAAITDNIILTSAVAILSATDPVRLYQNYATLDLISKGRASMVVGRASFQEAFPLFGLRFEDYDALYDEKLKLLLEIQKNEFVYWKGQFRPELSGQGVYPRPYQDKIPIWVGVGGTPQSVVRAAQLRLPLMIAIIGGETHRFAPLTNLYRQTWIEMGFPQEEIRIGIHSLGYVQKDSKTASEDFFPGYARSFNRIGKERGWGPITRESYEYVNGYTGALVVGEANEVADKILRHSESLGGINRFMFQMSVAELNHKQLCQSIELIGSKVIPQLRNA;locus_tag=LOCUS_6290;note=WP_012708897.1 luciferase (Sinorhizobium fredii NGR234) [pid:46.0%25%2C q_cov:99.4%25%2C s_cov:90.9%25%2C Eval:2.6e-85],MGA_664
sequence31	MetaGeneAnnotator	CDS	375	815	.	+	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKALFLVLILVSCSSNVAYGDYIDSNGMSRKEIEAIRYHPPVQVGVASYYGKDFHKKRTANGEIFDMYKVSAAHKTYPLGTVVKVTNLKNGRSIRLRINDRGPFVKGRILDLSYEAAKRLGFLSSGTTKVRIEVLKLGDNQFYR;locus_tag=LOCUS_6300;note=WP_011389395.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:58.1%25%2C q_cov:63.7%25%2C s_cov:25.3%25%2C Eval:1.5e-27%2C partial hit],MGA_667
sequence31	MetaGeneAnnotator	CDS	812	1705	.	+	0	ID=MGA_668;product=lipid kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808357.1;translation=MKPILCIINPKSGVKKSLKAFKDNQKKFTEKNFESEILITKESGHAERFVQKEDLSSFDRLIIMGGDGTVNEVLNGLYLSNRLESTNIAIIPTGSGNSVMHDLNLLEIDKAFDVALGNNIIKIDSILAQFDNCTKISISIIGWGMFSQGNVLAEKLRFIGTIRYDVASIITLLIKKSYKAELSIDENTRNDISCSFLVGCNSKHTGKGMYIAPDGGFQDGVIDFVIVEDKVSRFQIANLFAKVYSGKHTILPYVKMQKVNSFKINSNQETFFNIDGELIKSKSVLAKVFPKSVNIYV;locus_tag=LOCUS_6310;note=WP_005808357.1 lipid kinase (Desulfitobacterium hafniense Y51) [pid:24.6%25%2C q_cov:99.0%25%2C s_cov:98.4%25%2C Eval:1.4e-20],MGA_668
sequence31	MetaGeneAnnotator	CDS	1718	2353	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLQSRILVAAIGFPTVVFLIIQNNLLLLSLLAVATLVAVKEYIQMRPENITWFIWGWGVLYIISGMGSFYFLRQIDENGSAFALLLFVGVSINDTFSYFIGKAFGRNKLAKNISPNKTYEGLFGGLLGSIIIVDFFDVMIFDIALREKILFILVLNIVGLFGDLLESYLKRTAKVKDSSSLLLGHGGMLDRIDSLLLTSLVTFFYVLIR;locus_tag=LOCUS_6320;note=Q5SJZ5 phosphatidate cytidylyltransferase (Thermus thermophilus HB8) [pid:38.0%25%2C q_cov:82.0%25%2C s_cov:65.3%25%2C Eval:1.1e-20%2C partial hit],MGA_669
sequence31	MetaGeneAnnotator	CDS	2359	4182	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256160.1;translation=MKKIKSILATDCGSTTTKAILIEWKDDRYRLTFRGEAPTTVEAPFEDVTKGVLNAVMEVEELSGRKILNEGKIISPDSGSEGVDIYVSTSSAGGGLQMMVAGVVKSMSGESAERAALGAGSIVMDVLASNDGRLAHEKITRIRQLRPDMILLSGGTDGGTTTHVTELAEILAAANPRPRLGQNYKLPVIYAGNNKAQKAIQDTLGEISDLDIVDNIRPVLERENLEPSRDKIHDLFMEHVMAQAPGYKKLMSWTDAPIMPTPGAVGSLIEMIAKKENISVVGVDIGGATTDIFSVFQGKFNRTVSANLGMSYSICNVLAESGLDNVLRWVPFDIDRSELTNRIGNKMIRPTTVPQSLEELVIEQAIAREALRLSFIQHKEFATSLKGVQSERTISDAFEQSSSGQSLVNMMELDLLVGSGGVLSHAPRRQQSARMLIDAFMPEGITQLAVDSIFMMPQLGVLANIEKDDLKDEASQAALEVFDNDCLIRLGTCVAPVGSIKPGQLMAEITLNFQDGKKEIIQINEGDLKLIEHPYEEIKVSITPSRGIDVGAGKGEAIESSIYGGVVGLIFDGRNRPITLSKTPAERIESLSKWSNAVDEYPKGDLF;locus_tag=LOCUS_6330;note=WP_012256160.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:28.0%25%2C q_cov:98.5%25%2C s_cov:87.1%25%2C Eval:4.7e-60],MGA_670
sequence31	MetaGeneAnnotator	CDS	4182	5324	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHSYTPGLKVLKKTLFKKERILPLKGKVLVKKGDQVSPEEIVASTNLPGNVQMLKVNNLLNIEPQDVKNCLKVKEGDVVKKGDLVAETAGIFGMFKSSVESPVDGTIESISDTTGRVVVREAPIPVEIDAYVHGQIEEIIPEEGIILASNAAFIQGIFGIAGEKRGKIKILVSNPEDEITEDMISIDLKGKIIVGGSFISLAAYKKAINLKVAGVVVGGFNYFDLKDVLGYNLGVAITGTEDLATALIVTEGYGSIPMSNATFSLLNAYDGQEASVNGATQIRAGVIRPEIVIPLKDDTSNLSEVNKEPEGIKEGSLVRVIRAPYFGRLGTVSSLPSELHKMESETMVRVANILLKNTKDLKEEEILIPRANLEMVELE;locus_tag=LOCUS_6340;note=MGA_671
sequence31	MetaGeneAnnotator	CDS	5324	5587	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMSSEDKKFLGKLAKKIVDYQMVTPTIFFLEITKPLSFIGSQAMVFFGPIINAFVNSDGYYRAAEIFEHPTNIEFLIQEIERISKK;locus_tag=LOCUS_6350;note=MGA_672
sequence31	MetaGeneAnnotator	CDS	5696	6556	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQTLQNQIVLIGIVILTFFVSRFEFFNSERSFMFAILLLIIYILFQEVSNVRKNPDSIFLRTIPGLKAVEEAVGRSTEMGRPILYVPGIMDMNEVETVAGVIILGHVANMTAQYETSLDVPVSRSIVMQAAREACKESYLRQGRPELFNDDMVHYVTDEQFAYAAGVNGIMQRSKPAACMYMGKFYAESLLFAETGNGIGAIQIAGTASQAQIPFFVTACDYTLMGEEYFAASAYLSEKPELIGGVKAQDTFKIFLIFLIGLGFVARMLFDLDLLSFNLVDLIG;locus_tag=LOCUS_6360;note=MGA_673
sequence32	Aragorn:1.2.38	tRNA	428	500	.	-	.	ID=Aragorn_30;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0290;note=Aragorn_30
sequence32	MetaGeneAnnotator	CDS	541	753	.	-	0	ID=MGA_676;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082425.1;translation=MSDKHKGTVKFFNDKKGYGFILKEDGSDLFVHYSNIVSDRGFKSLKENQAVEFEVETDDKGEKAVNVKPV;locus_tag=LOCUS_6370;note=WP_004082425.1 cold-shock protein (Thermotoga maritima MSB8) [pid:61.5%25%2C q_cov:92.9%25%2C s_cov:97.0%25%2C Eval:1.7e-16],MGA_676
sequence32	MetaGeneAnnotator	CDS	819	1382	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011120933.1;translation=MILKTNRNYLTFAVLLLILVLGRTVPHPPNVTPLIGLMVFSSQVLKGSSFFWIPMLAMFVSDLFINNYIYNGYYTDFQILTPGFIWIYSPIILFAFLTKTKLFRSINFPKVLALSLSGSTIFFLLSNFGVWISSGMYTLNLQGLVHCYALAIPFYSNSIIGDVFYSTSLYFAYKFSTDISAAGLKKI;locus_tag=LOCUS_6380;note=WP_011120933.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:32.3%25%2C q_cov:85.6%25%2C s_cov:77.2%25%2C Eval:1.8e-15],MGA_677
sequence32	MetaGeneAnnotator	CDS	1363	1824	.	-	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007328395.1;translation=MQKIAIYFIILLSSLMAHCQLPCGIYDDAMRIRMIEEHVFTITKSMNFIKQNQGIEDQSFQIVRWTISKEEHAQEIQNIISEYFLTQRIKINSGDSLYLQKIQILHAILVDAMKCKQTIDTANANNLLSNLNSFVNLYFDEHGKTHLNDLKNK;locus_tag=LOCUS_6390;note=WP_007328395.1 hypothetical protein (Rhodopirellula baltica SH 1) [pid:40.3%25%2C q_cov:79.7%25%2C s_cov:78.2%25%2C Eval:1.1e-18],MGA_678
sequence32	MetaGeneAnnotator	CDS	1833	2936	.	-	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPNNTLGLFIISVIILIRSGKILFAFLFLTIYPIYYLINSLFLFLDKIFFPSIREIKINNPVLIMGVNRSGTTFFHKVLSNLDQFQSNTTWDYIFPSVILRKILNPVFFLLVKLQLTRIEGRKGGHSVKLNKIEEDEMLLFLHRLDSQWISNHLIPWFKVDQKFSNLSSQLLIDNPSNIKRHQDSVVFLQEFWKKQLYLGNKAQILSKSNPFIFKGKTIQSIFPDIKMVILIRDPKEVLVSYFSMQEKIKFGNKLKKIEKILYRKSAYQEIKIWYEETEKLLKNLNPNSYIIIKYCDLLNNFQQVMKRVSIFLDLQQSKQLKDILSQYDSSNYSSEHKNFDLEYFDLKEKQIHTDFNFVYKKYFN;locus_tag=LOCUS_6400;note=MGA_679
sequence32	MetaGeneAnnotator	CDS	2946	3101	.	-	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKKLVNSKHKKRKLRLKLKIKSLLKNKPAKETSDKKEIKKKSPKAKKS;locus_tag=LOCUS_6410;note=MGA_680
sequence32	MetaGeneAnnotator	CDS	3222	3713	.	-	0	ID=MGA_681;product=GNAT family acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011083551.1;translation=MLQLKDFSKEDLEFIFECNQLNKPQVGNLTLDKLKLLVKNSHYLKVAFYNGNPAGFLLCLIEDKNYDSPNYQWVSKKYSNFIYIDRISIMPQFQNMKIGTAFYLDLITFSCLNNFSSIICEVNIQPPNPGSLRFHKRFDFLECGSQFTEQGTKEVQFLIKQLN;locus_tag=LOCUS_6420;note=WP_011083551.1 GNAT family acetyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:32.6%25%2C q_cov:88.3%25%2C s_cov:83.9%25%2C Eval:6.2e-18],MGA_681
sequence32	MetaGeneAnnotator	CDS	3717	4283	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYFQRLYKAITLDVAFYEMVESDKSLTNQALMTVILVSIVQGIVIGSLNPIILAQGALGSVVRWIIWSMFIVFVGTKILPEPHTSSNTGELLRTLGFASAPGLLYAFSVIPLIGGLVDLIIPFLQIAAFTVAVRQALDFHSTVRAVGVSIVAMILMMITLMLFIGFTWFFIGVAENAISSTNPLIGA;locus_tag=LOCUS_6430;note=MGA_682
sequence32	MetaGeneAnnotator	CDS	4296	4706	.	-	0	ID=MGA_683;product=NADPH-dependent 7-cyano-7-deazaguanine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WZP8;translation=MVVLIGGEMPKADGRQFEFLSEDSINSDLLEAFPFDSPNQYIVTETREFSAVCPFSGLPDLADVIIEYYPEGGKCVELKSLKYYFVSFRNVGIYQEAVTKKIYEDLKKLLKTNRIKITTVYNTRGGFDTTCIEGGL;locus_tag=LOCUS_6440;gene=queF;EC_number=1.7.1.13;note=Q9WZP8 NADPH-dependent 7-cyano-7-deazaguanine reductase (Thermotoga maritima MSB8) [pid:68.8%25%2C q_cov:94.1%25%2C s_cov:93.4%25%2C Eval:2.7e-46],MGA_683
sequence32	MetaGeneAnnotator	CDS	4675	5043	.	-	0	ID=MGA_684;product=6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E5P1;translation=MFELKRKYEFHAARKLTKIDTSHPCAKVHGHTFHITVTIQDEINTKTGWVIDFYDIDQIYNQKIHSILDHSYLNDIQGLENPTTEKLAQWIWNNLKNDLKSLHSITVSEGDNYGCTYWGGNA;locus_tag=LOCUS_6450;gene=sscR;EC_number=4.-.-.-;note=Q5E5P1 6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase (Vibrio fischeri ES114) [pid:43.6%25%2C q_cov:95.9%25%2C s_cov:96.7%25%2C Eval:7.5e-25],MGA_684
sequence32	MetaGeneAnnotator	CDS	5043	5666	.	-	0	ID=MGA_685;product=7-carboxy-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89SC0;translation=MYSIKEIYFTLQGEGYHTGRPAVFCRFSGCNLWTGLEKDRSTAICQFCDTDFWGIDGENGGKYHSKSLANLIENQWQGDSEPFVVFTGGEPLLQLDKELIDEVHRKGFQIAVETNGTILPPDNIDWICVSPKANSKLVLEFGNELKLVYPQKNFDPSKFESFQFDHFFLQPMDGMEVEKSTLECVNYCIKNPKWKLSLQTHKLMGIK;locus_tag=LOCUS_6460;gene=queE;EC_number=4.3.99.3;note=Q89SC0 7-carboxy-7-deazaguanine synthase (Bradyrhizobium diazoefficiens USDA 110) [pid:58.2%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:1.0e-68],MGA_685
sequence32	MetaGeneAnnotator	CDS	5666	6340	.	-	0	ID=MGA_686;product=7-cyano-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RSY8;translation=MKKDKKHCVVLFSGGLDSTTVLYKANQEFIVHAISFDYEQNHKYELSAAKKILEKLSIDNHKILTIDLRQFGNSALTDNIQVPKKRSNNEEIPVTYVPVRNTIFLSYALAYAEVNNIFDIFIGVNALDYSGYPDCRPEFIKAFQEMANLATKFSQGSQKIRIHTPLIHLKKSEIITMGLNLGVDYSLTHSCYDPIKGLPCRECDACILRINGFKELNLIDPSLQ;locus_tag=LOCUS_6470;gene=queC;EC_number=6.3.4.20;note=Q2RSY8 7-cyano-7-deazaguanine synthase (Rhodospirillum rubrum ATCC 11170) [pid:60.1%25%2C q_cov:96.9%25%2C s_cov:92.5%25%2C Eval:1.7e-67],MGA_686
sequence33	MetaGeneAnnotator	CDS	489	2300	.	-	0	ID=MGA_689;product=thiol:disulfide interchange protein DsbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963739.1;translation=MNNLMKKIFYTLLFLTTASAQFLEPINLSFSYDKDLYQEEIFELQVNINLEEGWKIYAVYGVQGGPTPSRIFVESPLIEKVGKITEPNPISDFDEGFQVETKFHKGNFNISAPFKISSSVKNGDQLTFNPQFEYQVCNETICYPPTIYSEEIIVNIIDGNPRTEKLISNFDFDSDSILNIADNNILSFLILALSMGFLALLTPCVFPMVPITISYFTHRAEQSNQSAIKDASVYMFGIIGTFTVLGMLLAIILGASGANQIAANPYVNIFIAALFIYFSFSLFGFYEIEIPESLRRFSLQKESSKGYLGILFMALTFTLTSFTCTVQFMGLILVAASQGEWFWPIIGMLVFSTAFASPFFFLALFPKYLTQLPQSGSWLNNVKVVMGFLELAAAFKFISNSDLVWNWNIFSYDVVLFLWSVLMLLTAIYLFGLIRFRHDSIQPLTSKKALIASFFLIFSLYLFSGNLGYSINGTIQSYLPPKKASSNLLWVNTLEEGFQKAQEENKNIFIDFTGVTCTNCRWMETNIFTINSIEDKLQKYVLVSLYTDSGKDFNQKRQYQIERFKTAALPFYVILDPNDNIIGTFPGLTRDKKEFESFLDKGL;locus_tag=LOCUS_6480;gene=dsbD;EC_number=1.8.1.8;note=WP_011963739.1 thiol:disulfide interchange protein DsbD (Flavobacterium psychrophilum JIP02/86) [pid:28.8%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:6.1e-68],MGA_689
sequence33	MetaGeneAnnotator	CDS	2302	2880	.	-	0	ID=MGA_690;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KG85;translation=MNFMKIDFEKIFIETEALMRGHFILSSGKHSDTYFQCAKVLQYPKYLNFFAQELYKKFEKLNFDKVISPAIGGIVLGTEVGRRFDKRTIFCERESGKMSLRRGFSIERGEKILIIEDVLSTGGSIKEVINLITILGGEVIGVGVVVDRSIEPVMVHKNFHSLCSLKASIFDKSHVPEHLKNVEPIKPGSNIL;locus_tag=LOCUS_6490;gene=pyrE;EC_number=2.4.2.10;note=Q8KG85 orotate phosphoribosyltransferase (Chlorobium tepidum TLS) [pid:45.3%25%2C q_cov:93.2%25%2C s_cov:96.8%25%2C Eval:1.7e-37],MGA_690
sequence33	MetaGeneAnnotator	CDS	2861	3622	.	-	0	ID=MGA_691;product=orotidine 5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931823.1;translation=MNSYKEKLSNYIKKNNSNLCIGIDIDKQFLPKNSSLKNLIEYSFSVVDQTREFCVAYKPNLAFFEEWGSEGFIWLEKLLEHIGDQHIIICDAKRGDIGNTAKHYANAYFETFGFDAITLNPFLGSDSLLPFLQFPNKGIYVLCQTSNKSAPQLQQNTSSKVIEICEELDNNNIGLVVGATNSEGMKSIRTKTKLPFLIPGIGAQGGNLQEIISINKEFKFETIINVSRAIIFSESISSTAEQYNNMINEFYEN;locus_tag=LOCUS_6500;gene=pyrF;note=WP_010931823.1 orotidine 5'-phosphate decarboxylase (Chlorobium tepidum TLS) [pid:35.1%25%2C q_cov:97.6%25%2C s_cov:94.5%25%2C Eval:1.1e-39],MGA_691
sequence33	MetaGeneAnnotator	CDS	3697	4299	.	+	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYLNESITKVIAETNVFKIEKIESIGKNDFPKLIEISLHLAKEFGKDAILTKDTIRKYFNTEKSLPFVARYQGEIIGFIIGIPLESLENQQWVFRDEFYGKGTTLYTYAFVIMEKYKSNGYAKMLKRVYLSWAKNRRNFQFISGHIKSGVVNNKDSSIKIIYQEENWKGTGKKFDYYRRSLETNPELYLVNNPPIETTF;locus_tag=LOCUS_6510;note=MGA_692
sequence33	MetaGeneAnnotator	CDS	4289	5689	.	-	0	ID=MGA_693;product=solute:Na+ symporter%2C SSS family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013224493.1;translation=MIYYTIISLYLLALLWIGYQKSDSVKTQEDFSVAGRSLSPWILVGTMAATWMGTGSILGNAGKTFEVGAAGFLLPIGGMLGILVLINVSGKARASEKLTVPQIIGDRFGDVAMILSVIALLAAYLVIVSYQFNAGGAVLYTIFNDNLGSNISLDQSTIIAAIFIIAYTILAGLLSVAYTDVANGILMITCFVIAFPILLFQAGGFEGMNESFLAKGLPNHMSPLKVFTFREILNFCLPSFLLILGDANMYQRFFASESVKSARKATFILFFAVVILESLIVANAWVSSSMIVDIEKQSHVLIYAAYNFLPPLLGAIMLATLIGVIVSTADSFLLVPTTVIINDLYMKYSKNQFSEKSIILISRSMVLLLGIFAYFVSRMFAADTTIFEKSLYAFTIYGTSITPSLLASFFWEKASRLGAIFSILSGIVSTIYFGNLSGLDAAVVPSLSISASVLVLFSLIENQIKK;locus_tag=LOCUS_6520;note=WP_013224493.1 solute:Na+ symporter%2C SSS family protein (Amycolatopsis mediterranei U32) [pid:24.8%25%2C q_cov:97.9%25%2C s_cov:91.7%25%2C Eval:8.1e-30],MGA_693
sequence34	MetaGeneAnnotator	CDS	1326	2333	.	-	0	ID=MGA_696;product=2-oxoglutarate ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403202.1;translation=MSENTILKKTDFESDQAIRWCPGCGDYAILAQTQKIFPEITTEKEKVVFISGIGCSSRFPYYMNTYGFHTIHGRAPTIASGLKITNPDLSVWLITGDGDGFSIGGNHMIHLLRRNINLNVMLFNNRIYGLTKGQYSPTSEQGKITYSTPMGSIDYPFNPSKLALGAQASFVAKTIDRELLHLQTMIKRASEHQGTSFIEIYQNCNIFNDGAFSELTDKTTKSDRVLSVEHGKPMIFGADSNKGIRLDGTTPRVVEVGKEFSVNDILIHDESDRFIGDMLSNFTSSDTFPEPIGVLYCKERPTYDDLMVDQMAKAKQQGEKSLEDLLNAGDTWEVK;locus_tag=LOCUS_6530;note=WP_011403202.1 2-oxoglutarate ferredoxin oxidoreductase subunit beta (Salinibacter ruber DSM 13855) [pid:53.3%25%2C q_cov:98.2%25%2C s_cov:75.8%25%2C Eval:4.3e-109],MGA_696
sequence34	MetaGeneAnnotator	CDS	2326	4176	.	-	0	ID=MGA_697;product=2-oxoglutarate ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403201.1;translation=MSKKIYKETLDHVTIRFAGDSGDGMQLSGGRFTQTSAIVGNDLSTLPDFPAEIRAPAGSLAGVSSFQIHFSSQEIHTPGENPDVLVAMNPAALKVHLKELKPGGTLIINKNAFTTKNLSLAGYESDPSEDGSLLDYYTCHFIEMSKLVTAACSDLELSPKIIDRTKNLCALGVLFWMYDRPLEPTVDWLNKKFKSKPEIIEANVRALNSGYNYGETAEIFTTKYVVEKAELPKGKYRNMNGTLASCLGLLTASQKSGLPMTFAGYPITPASNLLHTLSNWKSFGIKTYQAEDEIAGIGAALGASYGGALGVTASSGPGIALKTEFLGLAVMTELPLVVINVQRGGPSTGLPTKTEQSDLLQAMYGRNGEAPIPVLSALTPGDCYFTAYEACRIAVKYMTPVILLTDGYLVNGSEPWLIPNPDDLKEFKYSFAKESSNGEKFNPFMRDETTFARPWAIPGTKGLEHRIGGLEKENISGNVSYDADNHELMIDLRAKKVKKISSEIEETKIFGLEKGDLLILSWGSTHGACRSATETLIGKNAKVGHASIRWINPLPPDLGKIISNYKKVLIPEVNSGQLRQIIRSEYLVDAVGLNQMKGKPIGASTIVKKVEELINE;locus_tag=LOCUS_6540;note=WP_011403201.1 2-oxoglutarate ferredoxin oxidoreductase subunit alpha (Salinibacter ruber DSM 13855) [pid:51.7%25%2C q_cov:98.2%25%2C s_cov:97.2%25%2C Eval:2.1e-185],MGA_697
sequence34	MetaGeneAnnotator	CDS	4333	4647	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIKKQVIEVLQDCNDPELPIDLWNLGLIYDLKIAENENKKFDVSIIMSLTTPGCSMGGFMMDEIKTKLKMLEAINLIDIQLTFDPPWSPEMLTEAGKEKLGI;locus_tag=LOCUS_6550;note=WP_003023300.1 putative Fe-S cluster assembly protein SufT (Francisella tularensis subsp. tularensis SCHU S4) [pid:44.3%25%2C q_cov:84.6%25%2C s_cov:48.1%25%2C Eval:1.1e-18%2C partial hit],MGA_698
sequence35	MetaGeneAnnotator	CDS	230	1312	.	-	0	ID=MGA_701;product=alanine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:H7C6H0;translation=MKIGIPKEIVSQEFRVAVNPDTAKKLIQAGHKLFLQHNAGLDSGYTNEMYTELGVTILNTPAEVFAIADLIMKVKEPSLEEVEMIGEKMLFTYLHLSSSKVLTEKLLECKTTSFAYETVIINKETPMLKPMSEIAGRLSLLDSIELLKKSKGGKGKLIAGTSLADPANVLIIGAGIVGINAMQMSLGLGANTTILDLNQELLNSIKQRYPAVNIALSSKEYISSLLPTIDIVIGAVLTPGAKPPVVISREMLKLMSEKSILSDVSIDQGGCFETSHATTHAEPTYEVDGIIHYCVKNIPSAVPFTATNALNIATSPFILKLASLGSDFITDTHLMMALNTYQGKLTNKEVAEAHDLPFNQ;locus_tag=LOCUS_6560;gene=aldA;EC_number=1.4.1.1;note=H7C6H0 alanine dehydrogenase (Bradyrhizobium diazoefficiens USDA 110) [pid:46.0%25%2C q_cov:99.7%25%2C s_cov:98.1%25%2C Eval:2.9e-82],MGA_701
sequence35	MetaGeneAnnotator	CDS	1316	3394	.	-	0	ID=MGA_702;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89WB3;translation=MIFVEKLIAGRLMRIESGQIARQAGGSVLIKYGDTSILATACASAKPLEGIDFLPMQVEYREKHYAGGKIPGGFFKREAKPTDAEVLISRLTDRPIRPLIPKSYSHELQVMLTTLSYDFENTPDVIAAVGASAALLLSPVPFSEPLASVKIGYIDGEFILNPTAEQMKTSDLDLIVSGVKDKICMIEGGSNFVPEKIILEALNVAMNGINEIVDLQLELADAFDNSYQVVEKETLSKDIESDLTSKYQERINSIFDLDTKQERDDAYNAIEDEAVLSYEEEEETQKHVKAFIKEMFKSTVRQNVLKNKTRVDGRKLDEIRPITIVPSILPRVHGSALFTRGETQAIAVTTLGSSKDEQIIDSMSDDYKKSFLLHYNFPPYSVGETGRIGFTGRREIGHGHLAERSLKPILPPSEEFPYTIRIVSEITESNGSSSMASVCGGSLSLMNAGVPIKEHVAGIAMGLILEGKDYAVLSDILGTEDFLGDMDFKVAGTRDGISAIQLDLKVPGLSMDVLENALEQARKGRLHILDEMNKAIDKPNELSPYAPQIESFTIDKDKIGALIGPGGKNIKAIQEQSGCVVNIDDDGVVSVAGPSKDVLEIAITKIKAIVEDPKVGSIFDGTVTKIMDFGAFVEFAPGREGLVHISHIAWERVNKVDDVLKKGDKVKIKLHEIDKQGRLNFSIKLLQEKPQS;locus_tag=LOCUS_6570;gene=pnp;EC_number=2.7.7.8;note=Q89WB3 polyribonucleotide nucleotidyltransferase (Bradyrhizobium diazoefficiens USDA 110) [pid:49.6%25%2C q_cov:98.1%25%2C s_cov:94.9%25%2C Eval:2.5e-190],MGA_702
sequence35	MetaGeneAnnotator	CDS	3401	3670	.	-	0	ID=MGA_703;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHN1;translation=MKYSKEISELLKDAGIDATNVGSSESQVALLTDRIKSLTEHCKVNKKDVHSRHGLVKLVAQRKKLLKYLRKTNMESYGELLDKLAIRGI;locus_tag=LOCUS_6580;gene=rpsO;note=B5YHN1 30S ribosomal protein S15 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:53.2%25%2C q_cov:88.8%25%2C s_cov:88.8%25%2C Eval:1.8e-18],MGA_703
sequence35	MetaGeneAnnotator	CDS	3708	4538	.	-	0	ID=MGA_704;product=riboflavin biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18BI2;translation=MEIIKSLNQKNFKGCHLTIGNFDGIHRGHRLLIEQLVSEAHVENKASLLLTFDPNPRYFFGDTESSTLTDNPLKYQLLEEFGLNYVIEMTFDQRFSKMSADQFLQEIILNQINPSSVVIGENHTFGYKKEGTVSTMKKFCLLHQINFSQREMFVIDDNVVSSSSIRSEIKKSNFTNVNRWLGRPYGFWIESTSENRYYPVCSKQLLPNSGVYLIEILKDNLTLPAVLKIVENKEKKIMMELQRINDKLDHNFDKKIFVQFLKQVSDINEVSLSQIK;locus_tag=LOCUS_6590;gene=ribC;EC_number=2.7.7.2,2.7.1.26;note=Q18BI2 riboflavin biosynthesis protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:30.9%25%2C q_cov:96.4%25%2C s_cov:90.3%25%2C Eval:9.0e-27],MGA_704
sequence36	MetaGeneAnnotator	CDS	399	1334	.	-	0	ID=MGA_707;product=D-fructose 1%2C6-bisphosphatase class 2/sedoheptulose 1%2C7-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DJE9;translation=MINSVISNYKDFLIASEKAAISAATVRGKGDGKLADKLATDSLRNALNLNQHSTKVVIGEGERDDAPMLFIGEILGKNKSGMKLELAVDPLECTTNCANNLPNSMTVLVISGENTLLNAPDTYMMKICGQKSLKNHLSINHSVKKNLSITCEVLKKNPEDLKIVILDRERHDKLIKEVKDFGSTPILISDGDVSAGIEAAEGKVDLLYGIGAAPEGVITAAAVKALGGFFLGKLIFDNQSFLNRSKKMLGNQIDKIWSENELCKGEDYFFIATGVCDGWVPGVKFNKNSIKVFSKIIFGNSSEINLIEREY;locus_tag=LOCUS_6600;EC_number=3.1.3.11,3.1.3.37;note=Q8DJE9 D-fructose 1%2C6-bisphosphatase class 2/sedoheptulose 1%2C7-bisphosphatase (Thermosynechococcus elongatus BP-1) [pid:39.2%25%2C q_cov:93.9%25%2C s_cov:91.9%25%2C Eval:1.2e-52],MGA_707
sequence36	MetaGeneAnnotator	CDS	1327	1848	.	-	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFYFLVMLFSILNASSNPVGVKFPTIKGISLSEKSVTFPDDLNNRVSVLSVAFKQQAQYCINSWADEFLKNYGLNQSVLYYEIPMLGAQWKMARNWIDGGMRGGVPKPLHDFTVTYYGPLKKYYKSLGINDKSDCYIYVLDKEGIVQGYFQGYSKPETIKEFFKLIDSLND;locus_tag=LOCUS_6610;note=MGA_708
sequence36	MetaGeneAnnotator	CDS	1845	2570	.	-	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258597.1;translation=MSPFILFGPMHVKTLLIIVLSSLFLPGLLKKSLTKNGINTFTKGLAVLLISNELFKPFYLTFLGDFKWSNTIPLHLCHISSYATGLYLITKNKKFFDFAYFWGLGGGCMALLTPDVEFGFPHIDFISLFFGHGLLFFGIIYILKIYKPLITFHSLLNAWKYAFMMLPFIYIINLVVNIFADPNYQSNLWYLVSPPGGASIMDFFPAIFQNPPLHIFPSIIIGFIVFLFLYLPMYLINRGKS;locus_tag=LOCUS_6620;note=WP_012258597.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:28.2%25%2C q_cov:96.7%25%2C s_cov:89.8%25%2C Eval:4.0e-17],MGA_709
sequence36	MetaGeneAnnotator	CDS	3040	3798	.	-	0	ID=MGA_710;product=NAD-dependent epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405392.1;translation=MEIELNNTNIILTGANSGIGFATAELLLESGAKLILHYNKNSSGVDKLKNQYPNQVKTFQADFNVLNQTIDFFNFSVQELGRIDVLINNAGTSIMNDISLDDKTWIDNWEKIMNINLLSSSLLIKKSLPHFIDNQAGRIINIASRAAFRGDTKDYLAYAASKAGMVAIIRSVARNFGKEGIKAFSIAPGFTRTAMAQKSIDKYGEDFVVKDIALTELTEPKDIAPIIALICSGGFDHGTGSNIDINAGSYVR;locus_tag=LOCUS_6630;note=WP_011405392.1 NAD-dependent epimerase (Salinibacter ruber DSM 13855) [pid:44.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.2e-59],MGA_710
sequence36	MetaGeneAnnotator	CDS	3798	4217	.	-	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWKCKHTWKKSAVNTAWCLLGCSIGDFSTIYVFQIIEHSWMVWQVMLLAMINGLATSIMLETYILSKQMNFTEALKTAFGMSFISMIAMELAMNLTDYFLTGGAMIVWYAVPLMLIVGFITPWPYNYWRLKKYNASCH;locus_tag=LOCUS_6640;note=MGA_711
sequence36	MetaGeneAnnotator	CDS	4283	4786	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILGILVFISITFSQDVSENSYLMGGQIGSGSFWVGSEILQYDVVGGNAPENVQGDPTFTLKPELGFFFRNNLAFYAKYYKENGLGTEYGLGLMYTMPDFYINGVFKNKDADDQHIQGTIGKLFQLETSPAYLTVGLNYSLYSEDQEKQLQLLIKGLYVGFGMTF;locus_tag=LOCUS_6650;note=MGA_712
sequence37	MetaGeneAnnotator	CDS	384	992	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKKLFLAFLFCSYLFSHPVIFKGGKVFWITQQPNSFDFRFGKSLSANWLVGGRFYEDKSTNESFGLINNNYLLKRWNAPNSQANLYLLSSIGSEIETSKTLASLGIHADWEDRRFMTMQMAEYYSHSSMWMLDTRLAISPYLVDYTKMSTWLIAHYKISIKDGKQTSELLPIIRLFKSNYLIEFGANKDNDTFLSFMLHF;locus_tag=LOCUS_6660;note=MGA_714
sequence37	MetaGeneAnnotator	CDS	1040	1993	.	+	0	ID=MGA_715;product=carbamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868005.1;translation=MKRTAIVALGGNALSNKKQAGTIEDQFDNTRKSLSQIAKFLQLDYNLCLTHGNGPQVGDELLRMDLTKETVPPLPLGVCVAGTQGTIGYMIQQTFQNILSQKNINREVVTLVTQVMVDANSPAIKNPTKFVGKRYTDDEAEIMSDSMGWIMKEQEPGYWRRVVPSPDPEFVMHGLSIRTLVQSGSIVIAAGGGGIPAFISKDGQLEGLDAVIDKDLTAAKLGRVIRANEYYIITDIENVYLNFGQPNEKPIYRMTDDEAKQYQAEGHFQTGSMAPKIRSAIYFLKHHGEKVIITNINNLSKAIDGQAGTVIYKNDKI;locus_tag=LOCUS_6670;note=WP_010868005.1 carbamate kinase (Pyrococcus abyssi GE5) [pid:42.2%25%2C q_cov:98.1%25%2C s_cov:99.4%25%2C Eval:1.8e-69],MGA_715
sequence37	MetaGeneAnnotator	CDS	1994	3124	.	-	0	ID=MGA_716;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405234.1;translation=MISIDGFRWDYFEKTDTPNFDRIIENGVRAEGLIPSYLSKTFPNHLSIVTGSHPNNHGIISNKMYDPIFKERYFIGQGSTAAQDGKWLNREPIWVTVEKQDLRAMTMFWPTSDAEIMGIRPSEWYVYDESITNPQRMEKILSWLDLEGSNRPTFLSTYMSIVDNAGHRYGPDSPEVIDSIIEADENIGILLDGLEARGILEETNIIIVSDHGMAATSSDSVIFLNDYVDLTKLNIIETGPFAQLDVIDDNETESIYQSLYQVHPELEVYKRYGFPSEYHLTDNPRIQDLTLIASNHWTIIKDRSQFKGNLRGGDHGYSPTATDMHGIFIGTGPDFKKGFVGPRIKNIHLYEMMCSIMNIQSSVNDGNLEESLIFLQ;locus_tag=LOCUS_6680;note=WP_011405234.1 alkaline phosphatase family protein (Salinibacter ruber DSM 13855) [pid:37.7%25%2C q_cov:98.1%25%2C s_cov:76.1%25%2C Eval:2.5e-76],MGA_716
sequence37	MetaGeneAnnotator	CDS	3326	4165	.	-	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLIILSVLFSFIFAQYNQGNTVVTWSKYKWNPMSEIEGATWTDRVNDVTEFHSKRNPVARNLLSSMMLTHYWTGSVQDVHLLGEFRNMGDATDYAGVNNLNQMAWRNQDERTTAVRNYNRHFQSYHEDVHIFENWTALEKKRKITLTGEETLVSGPVVVVSVRYFKSLGSIENGSADERLDLLKKFANEVVKKNPKILSQKVLTHLWSDSIEGGRVPVYYITEYASIGDADNVDNAPYVEAAFSQEERSRYNGYFHPLTEYHDDLGLWRNFEPANKN;locus_tag=LOCUS_6690;note=MGA_717
sequence38	MetaGeneAnnotator	CDS	72	1037	.	-	0	ID=MGA_719;product=cytochrome c oxidase subunit 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S0S5;translation=MIDRLNEFFFPKQVSTFASDIDNLFYFIFYSSVVLMAIVVIGMVVFSIKYRFKKGDKVRLTSSKDHDNILESLFFIIPLILVSITFVWGIRSYLKMIIVPDDAIEIKVTGQSWFWTFDYPEGGTSLNELVVPSNTPIKILLSSKDVLHSFFIPVMRTKMDALPNRYNIMWFEAQEEGVYDIFCTEYCGTAHSQMAAKVIVMKPKQYEEWVKELGSGDDDLPLDELGEKLYTKKACNTCHTLDGSDLVGPSYLETSRMWGQTRNFEDGSSAVIDENYIRKSILEPQSQIVAGYQGVMPTYQGLLSDRELDALIAFLKSLNDK;locus_tag=LOCUS_6700;gene=coxB1;EC_number=1.9.3.1;note=Q2S0S5 cytochrome c oxidase subunit 2 (Salinibacter ruber DSM 13855) [pid:44.3%25%2C q_cov:98.8%25%2C s_cov:98.4%25%2C Eval:1.2e-76],MGA_719
sequence38	MetaGeneAnnotator	CDS	1030	1842	.	-	0	ID=MGA_720;product=photosynthetic protein synthase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000885550.1;translation=MKLQNRLSYLIILFVSFLFTQTVKKEFPSEQPINVIEKLGNNIPLNLEFINSDGSLITIGDIIDNGIPTIITLNYFECPMLCTLVLNGLSDAIKNSDLMLGKDFQVITVDLNPNEPLNLIQEKKENYLSTLNDNIDDNSWYFLKGTNQNITLLADILGIEYYYDSNRDEYMHPAVITFVDSGSKITRYLYGIVYPSLDFKLAILETGQGKIGSTVDKILLYCYHYDPYKNTYTLFATNFMRLGGIFTIIFLAIMLVKLWKNDTLIERKND;locus_tag=LOCUS_6710;note=WP_000885550.1 photosynthetic protein synthase I (Leptospira interrogans serovar Lai str. 56601) [pid:36.0%25%2C q_cov:90.7%25%2C s_cov:89.2%25%2C Eval:2.9e-46],MGA_720
sequence38	MetaGeneAnnotator	CDS	1826	2125	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNGYEKRDIPVKPLVIGGISFILIVAVTLFLLFEYYVRVMDNSVYDFKLSKRSKKLIELRESEKETLSSYKIIDEENGVYQIPIERSKELLINEASK;locus_tag=LOCUS_6720;note=MGA_721
sequence38	MetaGeneAnnotator	CDS	2125	3330	.	-	0	ID=MGA_722;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404830.1;translation=MNIDPKNYTYTIDNNRNRQIFFLGIILILVSVLMGYKHQEFYFSYLTSYFFWLSIALGGIFFTLVHYAFSAVWSVSIRRIMENTIIVIPIMTILFIPILIGMESLFSWMPTNPKWSIPGSFEADHLIQHKLSFLNQEFFLVRAALYFLLWNFIAVYIYKKSIKNDSIANNSDLDKLRLFSMSPLGVLFFLSLTFAGFDWQMSLDPHWYSTMFGVYTFAGSFLAFLAFLTFTIIHLQSKGYLKNIVTSEHYHDLGKYLFAFTVFYCYIAGAQFYFIWYSNIPEETIWYLHRWVGSWKIISILLIVGKFFIPFFSLIFRASKRNLGLLKYMSLWIIFMHYIDINFIIMPTYHHHDFHFGIYDLLVLSGIGLVFISSFRNRLSQNPLIPVNDPELINSINHRNH;locus_tag=LOCUS_6730;note=WP_011404830.1 membrane protein (Salinibacter ruber DSM 13855) [pid:35.6%25%2C q_cov:94.3%25%2C s_cov:99.2%25%2C Eval:2.6e-66],MGA_722
sequence38	MetaGeneAnnotator	CDS	3333	3935	.	-	0	ID=MGA_723;product=quinol:cytochrome C oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404831.1;translation=MRISIIFLSIFVLVGCFRGSKFENPPIHLNPNMDNQQKYRSLEESYFFEDGSTMRKPIEGTIALGEYSSDITFSSGKNEDGSFVAENPLSISIEVLNRGQERYNIYCSVCHSQVGNGKGIITQYDYPVIPANLHDERIQGLPDGEIFNTIVYGLRSMPAYGYQIKNEDVWSIIHYVRALQKSQNTSVDLLTKEELNQLGN;locus_tag=LOCUS_6740;note=WP_011404831.1 quinol:cytochrome C oxidoreductase (Salinibacter ruber DSM 13855) [pid:43.1%25%2C q_cov:97.0%25%2C s_cov:82.9%25%2C Eval:1.1e-42],MGA_723
sequence39	MetaGeneAnnotator	CDS	2	853	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVIIGLVCALLVGLVIIGGIKRIGNVTGYLVPIMATIYVFAALFIILTNFSDVGESFGYIFDMAFNPPSLKEPAIGVASGAVIAFLNTMMMGVKRGLFSSESGQGSAAIAHSTAKTNYSVREGVVALLEPYIDTIIICSLTGLVIMVTDSWHFTEFYAQRIDTSVTEMKEGVLLTSYAFSQGIPFGNFLVTIAVVLFALSTAISWSFYGDRATEYLFGTKAISYYRYLYVFMFFVGSILTLEQVWMFGDAALAFMTFPNLLALILLSSKLKTLSANYFEKFD;locus_tag=LOCUS_6750;note=WP_011125688.1 sodium:alanine symporter (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:40.8%25%2C q_cov:97.5%25%2C s_cov:54.5%25%2C Eval:3.0e-49%2C partial hit],MGA_725
sequence39	MetaGeneAnnotator	CDS	901	1356	.	-	0	ID=MGA_726;product=ribosomal-protein-alanine acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66838;translation=MLTIREYSHDSDWKKICHIHDISRLVELKGSASINAFIPLKDCYQDEELFQSSIYVGEVDQKIIGFVAYNKNEITWLYIKKSQFRKGYGKQLLSFVLKKLDEPAKVTVLNNNIRAINLYQSFGFQIVEEKKGKIPNTDVEAIGYKMKQNNP;locus_tag=LOCUS_6760;gene=rimI;EC_number=2.3.1.128;note=O66838 ribosomal-protein-alanine acetyltransferase (Aquifex aeolicus VF5) [pid:29.5%25%2C q_cov:87.4%25%2C s_cov:83.8%25%2C Eval:3.1e-07],MGA_726
sequence39	MetaGeneAnnotator	CDS	1412	2401	.	-	0	ID=MGA_727;product=protein RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4H9;translation=MAAKEVNKTLEAVEKDINKEYGEGSIMRLGGTTKLNVEAISTGCLSLDMALGIGGVPKGRIVEVFGPESSGKTTLALHVVAECQKKGGKAAFIDAENALDPEYAKNLGCNAADLLISQPDSGEQALDILQRLLETAALDVIVIDSVAALVPKAELDGQIGDVTVGLQARLMSQALRKLSGPISKSKTCVIFINQIREKIGVMFGSPETTPGGRALKFYSSVRLDIRRIAAIKEGSDMTGNRTRVKVVKNKVAPPFKVTEFDIMYGKGISYAGDLLDLALQGEIIEKMGSWFSYKDEKIAQGREKVKILLETDDKLMKAVLKDVKGYLGL;locus_tag=LOCUS_6770;gene=recA;note=A5I4H9 protein RecA (Clostridium botulinum A str. ATCC 3502) [pid:65.3%25%2C q_cov:92.1%25%2C s_cov:86.1%25%2C Eval:1.3e-113],MGA_727
sequence39	MetaGeneAnnotator	CDS	2414	3637	.	-	0	ID=MGA_728;product=CinA-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DYM0;translation=MKIGIIVIGNEILGGFTIDKNAAWIGQTLLNEGLRVHRKITVLDQKNEIIRAFDSLSEDCDIVISTGGLGPTIDDITTSTLFDYFNDKPIYDESYWNKLKLYFNNKGMEIPPINRNQCYQSTTGKMIPNLKGSARGLFYHLEGKKYFILPGVPMEMKAMFEEFVLTEILKQRSEKFYCRSINTAAIAESLIHEKIIHLIESEHYQGCEVSFLPHKMFGVDIRIMSTNREVIDKLVDEITLILQDNIYGYDEETLIESVTQALLSQKLTISVAESCTGGLLGETFTNIAGSSAFFKGGVICYSDELKRNLVHVSEKTLKKFGAVSYEVAEELCRNIARICTTDIGIGITGVAGPGGGSKEKPVGLVFIGIFYQNNLYIHEYNLTSDRKTNRELSITLCLNELRKILIK;locus_tag=LOCUS_6780;note=B8DYM0 CinA-like protein (Dictyoglomus turgidum DSM 6724) [pid:34.4%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:1.7e-60],MGA_728
sequence39	MetaGeneAnnotator	CDS	3634	4200	.	-	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKMGFKNKLLLLVGNLFFVGRIRGGGTLASLLTFLFILTYDSIYVVLSIFLLSLLVYKPSLRMILSLEDDKDPKQYVLDEIIGLSFGILLTEIFILLFQSSTSNLFDIYDRSLVLGIIFIFFRLFDIFKPVPVKWIDQPKSVPESIKNLSIFKEERALFRVIADDLVAGFMAFLVLVLISLYLVIG;locus_tag=LOCUS_6790;note=MGA_729
sequence40	MetaGeneAnnotator	CDS	861	1307	.	-	0	ID=MGA_732;product=lipoprotein signal peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8EBI5;translation=MQLALFVAVLLLDQISKFLIHFNFYLYESVSIIPRVLNFTYIRNEGIAFGINFPGSKIFFIIIPIVITYYLYRLLKDKDFQDYHSQLGLTLIISGAIGNIIDRIFRGYVVDFIDFYWGNYHWYVFNIADSSVTVGMILLLLSNFFNKK;locus_tag=LOCUS_6800;gene=lspA;EC_number=3.4.23.36;note=Q8EBI5 lipoprotein signal peptidase (Shewanella oneidensis MR-1) [pid:40.7%25%2C q_cov:95.9%25%2C s_cov:84.7%25%2C Eval:3.1e-25],MGA_732
sequence40	MetaGeneAnnotator	CDS	1307	1714	.	-	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYSAKELKEFKENILEKIYEVNNQIESVRSTTNNSRKIFMEDNGEDYDEGTESSEVEKSFLLMSRESDYLVNLKKALQRIEDGSYGICEIYEEDPNECQCLEKPLISKERLIEVPNATKGVLCKEKKNLNLI;locus_tag=LOCUS_6810;note=MGA_733
sequence40	MetaGeneAnnotator	misc_feature	1723	4016	.	-	.	ID=MGA_734;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q182V2:isoleucine--tRNA ligase,Q182V2 isoleucine--tRNA ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:34.4%25%2C q_cov:92.9%25%2C s_cov:68.2%25%2C Eval:6.2e-113%2C partial hit],MGA_734;locus_tag=LOCUS_6820
sequence41	MetaGeneAnnotator	misc_feature	1	1333	.	+	.	ID=MGA_735;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_041272198.1:MBL fold hydrolase,WP_041272198.1 MBL fold hydrolase (Desulfitobacterium hafniense Y51) [pid:37.6%25%2C q_cov:68.6%25%2C s_cov:72.0%25%2C Eval:2.0e-54%2C partial hit],MGA_735;locus_tag=LOCUS_6830
sequence41	MetaGeneAnnotator	CDS	1335	1862	.	-	0	ID=MGA_736;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8ZC94;translation=MNIEQIKETITTVYDYPINGIVFRDITTLLENPDAFRSTVKIMVDKVAHLDFNKVVGIESRGFFWSAPLAYATKAGFVLARKPDKLPRETAFREFTLEYGNTSVHIHKDAIQPGDKVLIVDDLIATGGTALATAEICEELGATAIHTIALIDLPALGGSKKIAEKYGEVITLIDY;locus_tag=LOCUS_6840;gene=apt;EC_number=2.4.2.7;note=Q8ZC94 adenine phosphoribosyltransferase (Yersinia pestis CO92) [pid:44.5%25%2C q_cov:98.9%25%2C s_cov:92.5%25%2C Eval:6.8e-40],MGA_736
sequence41	MetaGeneAnnotator	CDS	1907	3283	.	-	0	ID=MGA_737;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963922.1;translation=MKIEQIYTGCLAQGAYYIESNGEVAIIDPLREITPYTERLAQHNHTLKYIFETHFHADFVSGHVSLAAKTGAQIIYGPNADTQFEAYNAQDLEVFQIGDCTIQAIHTPGHTLESTCYLLKDAEGKSKALFSGDTLFIGDVGRPDLAQQGLTMTKEDLAGILYDSLRQKVMKLDPSTIIYPAHGAGSACGKKMSSETSDTLGNQLEANYALRADMTKEEFIAEVLDGLGDPPGYFSANVRLNQEGYEHVDTLLSQSNDSYLSPDQFEELANQEHPLMLDVRTVEEFSRAHIPNSIFVGLSGPFAPWVGELIVDVQTSILLITNSKEQYEEARIRLSRVGFDNVLGTLEGGIDAWVAAGKEVASLENISPEEFMDAYQGKNILDVRSDSEFSISSMPTAKHIALNKLNLQMDQLSKEDTTYLYCGSGYRSVISCSILKSRGYHNLINVQGGFGALSKLMQ;locus_tag=LOCUS_6850;note=WP_011963922.1 MBL fold metallo-hydrolase (Flavobacterium psychrophilum JIP02/86) [pid:51.9%25%2C q_cov:99.3%25%2C s_cov:96.2%25%2C Eval:1.2e-134],MGA_737
sequence41	MetaGeneAnnotator	misc_feature	3289	3805	.	-	.	ID=MGA_738;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to O84616:PqqC-like protein,O84616 PqqC-like protein (Chlamydia trachomatis D/UW-3/CX) [pid:38.1%25%2C q_cov:93.0%25%2C s_cov:69.3%25%2C Eval:1.2e-25%2C partial hit],MGA_738;locus_tag=LOCUS_6860
sequence42	MetaGeneAnnotator	CDS	361	885	.	+	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFYFLVMLFSILNASSNPVGVKFPTIKGISLSDKSVTFPDDLNNRVSVLSVAFKQQAQYCINSWADEFLKKYGLNQSVLYYEIPMLGAQWKMARNWIDGGMRGGVPKPLHDFTVTYYGPLKKYYKSLGINDKSDCYIYILDKEGVVQEYFQGYSKPETIKDFFKLIDSLNDQ;locus_tag=LOCUS_6870;note=MGA_740
sequence42	MetaGeneAnnotator	CDS	875	1819	.	+	0	ID=MGA_741;product=D-fructose 1%2C6-bisphosphatase class 2/sedoheptulose 1%2C7-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DJE9;translation=MTNSIASTYEDFLLASENAAISAATVRGKGDGKLADKLATDSLRTSLNRLNHQIRVVIGEGERDEAPMLYINELLGSATSNLNLDLAVDPLECTTNCAQNLPNSMCVMVIAKQDSLLSAPDTYMMKICGSSKLKGHLSINYSTIKNLQICCDKLNKKPEELKIVVMDRERHLNIINDMRSFGVNPILITDGDVSAGIEAAEGKIDLLYGIGAAPEGVITAAAVKALNGFFLGKLVFQSDEFLDRSKKMLGEDIHKIWSENELCIGDDYFFIASGVCDGWIPGVKFSSVGVEVFSKVIFGKSKKIHLINNIYSNE;locus_tag=LOCUS_6880;EC_number=3.1.3.11,3.1.3.37;note=Q8DJE9 D-fructose 1%2C6-bisphosphatase class 2/sedoheptulose 1%2C7-bisphosphatase (Thermosynechococcus elongatus BP-1) [pid:39.8%25%2C q_cov:93.9%25%2C s_cov:92.8%25%2C Eval:6.9e-53],MGA_741
sequence42	MetaGeneAnnotator	CDS	1812	2801	.	+	0	ID=MGA_742;product=putative fructose-bisphosphate aldolase class 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8P5Z7;translation=MNNLIKTALKMVESGKGILAADESNPTCTKRFESLSIESTPTSRNAYRDLLFSAPDIEKYISGVILFNETFYQKDLSSQAFYPEFLSRKNILPGIKVDSGLELLDVYTKEQATKGLHDLEKKALQYYIDGARFAKWRAVYHIDESLPSQKSIDRNANDLADYASICQSSNLVPIVEPEVLMNGNHSIAKSYEVTSKVLHSVFKELSKRNIIFEAMILKPNMVLSGYNNNQQASIDEVAKWTVKCLKENVPSDVPGIAFLSGGQSDELATLHLNAMNQLQNPWKLTFSYGRALQSQALQIWAGNQNNILEAQNAFLELAKANSSASQGLL;locus_tag=LOCUS_6890;EC_number=4.1.2.13;note=Q8P5Z7 putative fructose-bisphosphate aldolase class 1 (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:48.9%25%2C q_cov:99.4%25%2C s_cov:98.2%25%2C Eval:6.3e-81],MGA_742
sequence42	MetaGeneAnnotator	CDS	2798	3421	.	-	0	ID=MGA_743;product=thiamine pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001149282.1;translation=MEIPEHATLVLNGQFPANKTHLAFINDSSIIIAADGSLNHLIQNKIIPHFVIGDLDSADKGLIEKYNVQSIEIKDQSKTDFEKILIWCLEKKIQKISIFGIGGKDEDHHLSNLLTLNKFSQKILLEAFTDNYIITPISSYRKFKSFKNQTVSIMTFEKKSLVQSKNLFYELNQTKITPSNFSIRNRSMGNQFEIETSNKVLIFQEIN;locus_tag=LOCUS_6900;note=WP_001149282.1 thiamine pyrophosphokinase (Helicobacter pylori 26695) [pid:30.9%25%2C q_cov:96.1%25%2C s_cov:98.0%25%2C Eval:1.5e-19],MGA_743
sequence43	MetaGeneAnnotator	CDS	421	765	.	-	0	ID=MGA_746;product=ribosome-binding factor A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0KNE2;translation=MNNKPFSRAERVEKQLLKVVNELILHEIDIRKLGFITFSTVKVTSDLKHANIFFSVINPSRTVESIAKNLNELVPLFRKSLSRTIKLKTVPTLKFFYDDSFEQFQKINELMKKI;locus_tag=LOCUS_6910;gene=rbfA;note=A0KNE2 ribosome-binding factor A (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:27.0%25%2C q_cov:94.7%25%2C s_cov:77.1%25%2C Eval:2.0e-09],MGA_746
sequence43	MetaGeneAnnotator	CDS	768	3107	.	-	0	ID=MGA_747;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KFT1;translation=MSDSIRIFQLAKELNISHNDIVEFLKQKGVDVSSHMSPIDGRTQQIVYTEFAKDRQLAERDRKEQVRKEIHDSRVVMKSKSVKNLKILSVQEEKELQKNKPKVELESPKDSTEPTGDKSEKTSIKSPKKKLRKISLREPESPKEKEEKRSDKKDKKGEKSAIQRLKKNLASIETSPKKKNYKKFKKDSKSLDENTVFEIAEFSSISEIAKVFDVSTSELIGKCLQLGILATVNQRLEWDVIELIADEYGVAVKKYEEMVDDLFVTSHSDEELKSATSRAPVVTIMGHVDHGKTSILDFIRETKVAAGESGGITQRVGAYHVLHNNQKITFLDTPGHEAFTAMRARGAQSTDIVILVVAADDSVMPQTIEAINHAKAANVPIVVAINKIDKPGANPDVVKRELSEKNVLVEEWGGKVQSVNTSAKTGEGIDALMEAILLEAEVLDLKANTEVECKGIVIDSRLDKGLGPIATVLIQKGTLKIGTAFICNNSSGKVRAIMTENNERIKVAKPSDAVQILGFDQVPQAGDIFAEVQNESDLKKIAGERKRIKREIDLQMMRKTTLDTLSAQIKEGSISTLNVIIKADSDGSIEAIIQSLEKIKNEEVGVSVVHKGVGNISDSDVLLAQASKAIVIGFAVQVSSDSKLLASQNDVEIRTYSVIYKLVEEISLAVEGLLTPDVIEDVVGQAVVKESFKIPKIGFIAGCQVESGQIKRDCFVRHVRDGEILVTKSTISSLKRFKDDVNTVESGMECGIAVEGVNKYEPGDQIVAYKIREVKRKLN;locus_tag=LOCUS_6920;gene=infB;note=Q8KFT1 translation initiation factor IF-2 (Chlorobium tepidum TLS) [pid:44.4%25%2C q_cov:92.7%25%2C s_cov:76.9%25%2C Eval:9.1e-168],MGA_747
sequence44	MetaGeneAnnotator	CDS	341	1006	.	+	0	ID=MGA_750;product=NAD(P)H-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962679.1;translation=MMSILDSMRWRYATKKFDQTKKISSKDLSDLKEAIRLAPSSYGFQLFKVLIITDPDIKKKLYKESYLQSQVKDCSHLFVFCSYKKVNDSHIDEFTTLMDEYRKLDKEKGIIKTLQSKAKILAYGTIAKTDLGSRKEEDLLQWMKKQCYIAMTHLLIACADKRIDACPFEGFRSAQYDKILGLENRNLTSTVLVPVGYRSDEDHHQHRTKVRKSLENIFEEL;locus_tag=LOCUS_6930;EC_number=1.-.-.-;note=WP_011962679.1 NAD(P)H-dependent oxidoreductase (Flavobacterium psychrophilum JIP02/86) [pid:40.4%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:6.2e-43],MGA_750
sequence44	MetaGeneAnnotator	CDS	1072	1446	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKILNCSCYDKYQSLGKLLVRLVIASIFLYHGYAKLTSPNPLEWFGVSTAVGKLVGLLECGGAVLLIMGHYKDSLSRLAGFMLLPVMGVALFMVNLPQGFVKARLDLLLFALAIYYILVDRD;locus_tag=LOCUS_6940;note=MGA_751
sequence44	MetaGeneAnnotator	CDS	1554	2453	.	+	0	ID=MGA_752;product=alpha-L-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011072232.1;translation=MKGWIFSNNVTESYESQRLIMEFKKRNIRVYYINPSNIDIFVNREDRKSILVNNEFASLPDFVIPRLGSSMNYYQKSVIRHLEKMGVLIINGSESIENAKDKLFSMQILAQQNIPVPKTLLAKDPVNIEYIKRRIGFPVVVKTLSGTHGKGVYLAKDETNLQQLLDMISEINPRMNLIIQEFVSAQAGTDIRVFVVGGKVVGAMKRESKDGDFRANVSRGAIPSNFEVDYDAEYLALESSKLLHLDIAGVDLLIDEEGYKICEVNSAPGFQGLESATNINIAETIVNYVLHRVAVPSEK;locus_tag=LOCUS_6950;gene=rimK;note=WP_011072232.1 alpha-L-glutamate ligase (Shewanella oneidensis MR-1) [pid:44.7%25%2C q_cov:98.7%25%2C s_cov:90.9%25%2C Eval:3.5e-75],MGA_752
sequence44	MetaGeneAnnotator	CDS	2510	3022	.	-	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVEKFVLATVVIALGALFFVDAPSTPVLIEEVSTQPVKELSTTVEANAEALSLVSQHEDDELVDSNYPVAEAVVETKIEPVPSFNEAFLMARKTLGPGQEFEWNGRLYTTNYDYEIKLEQVDLDIIVVEQPYPFEEDKSIDDSVLPLKYDDRELSENTSDKDLALNTN;locus_tag=LOCUS_6960;note=MGA_753
sequence45	MetaGeneAnnotator	CDS	233	1174	.	-	0	ID=MGA_756;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E0X6;translation=MQKDVPKIIFFGNTNFSSFVLGKLSHFFNILAVVTNEPKPMGRGRKNSITPVHDFSEKKNIPLLNINDLNDKFFLASLENLKADFFIVVAYRILPISILKLPKIGSINLHTSLLPKYRGAAPIQRALLNGDKETGVSTFIIDKKVDTGKIILQKRIKINDSDNFEDLEMKMMQEGSSLLRNSIDLIYENRAQLIVQDEALATKAPKITKEEIQINWNESVELIQNKIRAFSPSPGAYTFLKKKRIKIFASSFKLINHNYPISSVISTKDQLIHVACKDGILMINNLQLEGKKIMSSEEFLRGNNILGENFSYE;locus_tag=LOCUS_6970;gene=fmt;EC_number=2.1.2.9;note=B8E0X6 methionyl-tRNA formyltransferase (Dictyoglomus turgidum DSM 6724) [pid:40.6%25%2C q_cov:97.1%25%2C s_cov:98.7%25%2C Eval:2.1e-54],MGA_756
sequence45	MetaGeneAnnotator	CDS	1155	1673	.	-	0	ID=MGA_757;product=peptide deformylase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KVU3;translation=MAVKPVVTYGHESLRTVAQEIVDFKEIDILINDLFDTMYENDGIGLAANQIGINFKIFVVDISHTEEAESPMVFINGKIMDCSGETIDTEGCLSLPDIRIRVKRCSEILFSYLDENLVHHEKTFNGLLATVIQHENDHLEAKLITDYASPSDLIKYEKKLNELLESNAKRRS;locus_tag=LOCUS_6980;gene=def1;EC_number=3.5.1.88;note=Q9KVU3 peptide deformylase 1 (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:40.4%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:1.7e-27],MGA_757
sequence45	MetaGeneAnnotator	CDS	1678	1962	.	-	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETNNPSFLEILLSQLPIFLIFLVVYYFFIRPSSKKQEEVKNLQSNLQKGDKVITIGGIHGKIVEVKDKTVVLKISSDSDLTIEKTAINQKIS;locus_tag=LOCUS_6990;note=WP_003723533.1 preprotein translocase subunit YajC (Listeria monocytogenes EGD-e) [pid:46.8%25%2C q_cov:81.9%25%2C s_cov:69.7%25%2C Eval:4.2e-15%2C partial hit],MGA_758
sequence46	MetaGeneAnnotator	CDS	103	1479	.	+	0	ID=MGA_761;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZXD1;translation=MSIPNKPSLLVGAISPLDGRYREKVAEIGCYFSEEALMRYRLFVEIEYLIFLHASVKELKPISLKDQKTLKNLHSDFSQQTYNQIKKIESKSHHDVNAVVEYLSLQVSKKMRQDLAAMVHFGLTSEDVNNLAYGLMVQDACNEVLIPRLKVCVKDLQKLAKTTAKMPLLALTHGQPATPTTLGKEFQIFVQRINRQLSQLSAHRLMGKLGGATGSLAAHHLAFPHHAWQVFSKRFVHHLGLEHNPLTTQVEPGDSLAELFHLLVRINNIFLDLSLDCWQYISRNLFIQQNNAKEVGSSVMPHKINPIHFENAEGNLELANQQLIFFANKLTRSRLQRDLSGSTVMRNLGVGLAHSLLGYKSVQEGLSRLTPNQKQLQEELNQNWSILTEAIQTILRKSGDQSAYDNIKKLSKGKMFNQNDYINLVNSLDLNKSDLELLLSLSPENYLGVIHKIMEKKK;locus_tag=LOCUS_7000;gene=purB;EC_number=4.3.2.2;note=Q5ZXD1 adenylosuccinate lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:43.3%25%2C q_cov:97.2%25%2C s_cov:98.2%25%2C Eval:5.1e-101],MGA_761
sequence46	MetaGeneAnnotator	CDS	1476	2468	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILILSLITFALGQNNVSERIEFMSANPFSFQQIILDLDNQTPQAVFGELMFPTDFDSSKKYPLIIGNAGSLNWAEHHLKYLEMYRQLGFATFQLRSFDSRGVASTVGDQVDVTVAMVILDSYRALELLSKHPNIDAENVGITGWSLGGGVALYSAWMPLVKAINGGAYQFAAHLPIYPPCFVYPVTEESMEFTAAPIHILAGGADNWVPAVACSELIDQLKANNIPVDMEITIYENAHHSFDKTNVPLTVRENGYTLGDCRFPMNEDGTIYYSENIKLSINQPWKQKLALATCAGRGPTMGTNEEARQQAFAYSAWFFTKHLMKNLD;locus_tag=LOCUS_7010;note=MGA_762
sequence47	MetaGeneAnnotator	CDS	227	778	.	-	0	ID=MGA_765;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057625.1;translation=MALTYSTMLELGTRIPDFKLKNVLNDNWYHSSNLSNSKPSLVMIICNHCPYVVHYHSELQKLQKEFSSQIDFVAISSNDVVSHPQDGPEEMVKLFNNLNLIFPYLYDETQEVAKLFKAECTPEFYLFSDQDKLVYRGRLDESSPRNGIEVSGSDLRDAMNNLLISKPISKHQYPSMGCNIKWK;locus_tag=LOCUS_7020;note=WP_011057625.1 thioredoxin family protein (Thermosynechococcus elongatus BP-1) [pid:48.4%25%2C q_cov:100.0%25%2C s_cov:95.3%25%2C Eval:7.1e-46],MGA_765
sequence47	MetaGeneAnnotator	CDS	855	1565	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSKKNIFVTTFLSLLLLLTVSEYWKWWLIFFSFILLKGLIDKYNRFYNPNFLFDGNDKLFKKLAAECQVYGEYGSGKSSLWVFNNFKKPILSVENNKEWSDKVFIQLNNSSTNHCVFVDCGPVKEWSYPTDDSKQNNYLTYCQSMWNQSITPDFILIDGRFRINCFLHCLKHAKEGTKILWDDYLNRTNYHIAEEWLQPVQRNSRQALFVIPKKEDLANLDFDQLIDEYQFKVD;locus_tag=LOCUS_7030;note=MGA_766
sequence47	MetaGeneAnnotator	CDS	1570	2103	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQIILVISFFSILFSQIEYSIDQNRSSITYYGKHIAHNWSASSNKLEGNIYFNPENLESFETSINVPLLSFDSNNSNRDSNMLDVVEDYLFPYVSFDSKSIEIRDSKYFVKGIIFFHGISQEKEVEAEIKLIDNRIIIDANFSIQLSDFKIKRPSLLTIKIDNKIDLILHIEAIKK;locus_tag=LOCUS_7040;note=MGA_767
sequence47	MetaGeneAnnotator	CDS	2100	2744	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKILIKSLLIILCLSSIFCQESVVNKESYERRFKAPELGYPDNMPLIKEKIWGEEGLFKKLNIGPDNRIEELKLRRKMLQAHQWLGLTTLLGLAYQYQVGKELYDGNDNNYWDSHYDRHKAMGYLTYATYMTTASLSIFSPPARVYNDSFNSIKIHRFLAGIHFTAMVAQPFLAKNAVKNGKKYNELMDLHLKAGTVAFFALSLDALSISFLK;locus_tag=LOCUS_7050;note=MGA_768
sequence48	MetaGeneAnnotator	CDS	399	914	.	-	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKWFQYSLILALIFVFTTDLHGQFRRKKVKLSQTNKVEEFINDYVQDPFMIEHIQTLQSELVKIGFEILPPDTDGDVEIEINFENFNFDPYYGSTADPKQSYIIFRDPSSKKVFAKFFAISIVSDDDSVGPMSQAFGNTTSSSYNNTSRDLPTDVNAIILDWAKQIKNFY;locus_tag=LOCUS_7060;note=MGA_771
sequence48	MetaGeneAnnotator	CDS	927	1478	.	-	0	ID=MGA_772;product=peptide-methionine (S)-S-oxide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066219.1;translation=MHMKNKSLILLILVLLLGEKMMANEKTIKEAVFAAGCFWGVESSFQALEGVKETTVGYTGGKVKNPSYELVCTGITGHAEAVKVVYDASVVSYEQLLGTFFTSHDPTTLNRQGPDVGTQYRSAIYFADETERAAAESVIEQLNESGKFSSKIVTEVTNKSDFYDAEEYHQDYYKKRGLTGCAI;locus_tag=LOCUS_7070;gene=msrA;note=WP_048066219.1 peptide-methionine (S)-S-oxide reductase (Methanosarcina acetivorans C2A) [pid:54.7%25%2C q_cov:82.0%25%2C s_cov:93.2%25%2C Eval:2.7e-45],MGA_772
sequence48	MetaGeneAnnotator	CDS	1604	2836	.	-	0	ID=MGA_773;product=sterol desaturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000405145.1;translation=MDTSILITLSIPLFFGLVLIEFLYGYFTKNNNYRLNDAITSMSLGLISRFVPLLGLGFQYVVYTIVAEQYNLKLLSTDAIWVWVLAFLMYDLCYYWMHRIHHEVKLFWATHVVHHHGEDFNLSTAMRQTSTGFLWKWVFFLPMFLIGVPPAIYVTVAGLNLIYQFWVHTEHIGRLGWMEYVFITPSNHRVHHAQNDDYLDANYGGVFILWDRMFGTFIDEREDLKPVYGTVKPLKTFNPFWANIEVFYQMLMDSIRTKKWSDKVKVWFSPPAWRPADVAEKYPISKNDLSNFEKHDPQIMMEGKIFALFQFFVINSMTLVMLFNVNLFDYSQMLSIIFFIVFVAISNSFILDGKSFAYRFELLRAITMLFLFQLEYFTKFDLFILSHSVASVILAFLLNSRAASKAQTVA;locus_tag=LOCUS_7080;gene=erg3;note=WP_000405145.1 sterol desaturase (Leptospira interrogans serovar Lai str. 56601) [pid:35.2%25%2C q_cov:94.4%25%2C s_cov:97.3%25%2C Eval:1.6e-74],MGA_773
sequence49	MetaGeneAnnotator	CDS	640	1413	.	-	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSSLFGAWIAAFLTLGIFSYLFRDNPFYRIAEHVFVGVSAAYWAATFYWTQIYPNLFGRLFPADGPFSNFWVVDKGHEFSIIYILPLILGIMMLLSVSKQFNWMARWGIAYTVGIAAGLKAFGYLKSNVIEQVASSALPIFDGNTPWFAVSGSSIFNNLIIIIGTISALLYFYFSKEQKGTFGKVTRLGIYFLMISFGASFGFAVMGRISLLIGRFNDLINFSGADYNYATIWMFVFIVIVLGFWSFKNPEKNEV;locus_tag=LOCUS_7090;note=MGA_776
sequence49	MetaGeneAnnotator	CDS	1415	2257	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLENILLKLGSIDRRVIFLIIGLAVLIPLLSPVELPIRPGPSSQQVYDAIDSIPDNSKVLISFDYGPSTRPEIHPMTLGVMRQLLDQERGHKIYITCLWPDGLYMAKDALKTINAEYSLEKYEDYVLLGFRPGYEAVIKGLENNLRAVYTVDADLTSIDDIPMMEGINSLEDFDFIFSGSAGYPGSLEWVLYGPTTVPLSSGTTSIQVNEVLPYVQSGQLKGILAGMPGAAEYEALVGKKGIATSGMAAQSYGHIVIILFIILGNLAYFIKDRRERKY;locus_tag=LOCUS_7100;note=MGA_777
sequence50	MetaGeneAnnotator	CDS	239	1165	.	+	0	ID=MGA_780;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64NI8;translation=MKQSDHNIQEFLTFLKYERRFSSKTIEAYGKDIEDFTSFVQKKGKNFNQVNKDLIFEYHQDIELQISPRTFSRKLSSLRTFFRFLNHEGIISDTVMFEVKSYPSPKFKKHIPSYISKKQFSQLIEDIKENSSLTDFERFRNLSILSLFFSSGLRLEELTSIKRSDVDFHSNTIKVLGKGNKERIINFDSLTNDFLKKFIQIFDRIDLNKIKVSDNLFCKKYKNEFCKLSRFNIQYIVMNSLKKLNINSVGPHTLRHSFATHLLNSGVELNAIKELMGHESISSTQVYTHVNIAKLTEELENAHPRGKK;locus_tag=LOCUS_7110;gene=xerC;note=Q64NI8 tyrosine recombinase XerC (Bacteroides fragilis YCH46) [pid:33.7%25%2C q_cov:95.8%25%2C s_cov:98.0%25%2C Eval:1.1e-42],MGA_780
sequence50	MetaGeneAnnotator	CDS	1162	2754	.	+	0	ID=MGA_781;product=phosphoenolpyruvate carboxykinase [ATP];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F9E4;translation=MNLEYLGISNKNFIVNASPKALVNKAIRDNEGVIGLNGSLMVDTGEFSGRIPNDKFIVDNPDSSDKIWWGEVNQKISSENFDHLLHKVVSSYNTHENTFHIFDGSAGDSSRYNFRVRFLTKKAWQSLFVNNMFLRYRRENELQNFEPDFTIINAFDVKEKDWKKYGLNSENFIVFNIEKKIGIIGGTEYAGEMKKGIFSMLHYYLPQQGVFSMHCSANVSEKFDNTVIFFGLSGTGKTTLSTNMNRPLIGDDEHGWSNTGVYNFEGGCYAKAINLDKDKEPEIYNAIRFGTLLENVVYDPNTYKVDFDDNSKSENSRVCYPIHYVDNSLASRGKRSFGPHPKSIIFLTCDAYGIMPPVSRLTKKQAMYHFISGYTAKMAGTETGVKEPKAAFSPCYGGPFLTLHPLKYAELLEKKMDEHNCNVYMVNTGWSGSSASIGSSRISLKDTRKIIDSIINESLDFSSPIKDDFFGFEIPKIEGFNEEFLVPLKAWKNVDEYHQVGSMLTKLFVKNFEKYNITDQEILNSGPSVK;locus_tag=LOCUS_7120;gene=pckA;EC_number=4.1.1.49;note=Q8F9E4 phosphoenolpyruvate carboxykinase [ATP] (Leptospira interrogans serovar Lai str. 56601) [pid:49.6%25%2C q_cov:96.8%25%2C s_cov:95.3%25%2C Eval:5.1e-140],MGA_781
sequence51	MetaGeneAnnotator	misc_feature	1	2187	.	+	.	ID=MGA_783;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_001108730.1:leucine--tRNA ligase,WP_001108730.1 leucine--tRNA ligase (Staphylococcus aureus subsp. aureus N315) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:89.6%25%2C Eval:8.4e-253],MGA_783;locus_tag=LOCUS_7130
sequence51	MetaGeneAnnotator	CDS	2164	2772	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASLFYGGGNYIFTDTTSYSFTTNFLSDLGRISSHSGNSNITSFIYFFIGMSALGFGAYHFFFLCANYFEPQFPRIYIIAKLLALFGIICTIGIIVTPADVKSLYLLHNTFAYWVFYTDLKILALFTWFFFRIKDYFVARILLISTILIGLYIFFLEYGPQPWMDYQALRLHATAQKLAVLVLVIAVWTMTASKKLSYDKIN;locus_tag=LOCUS_7140;note=MGA_784
sequence52	MetaGeneAnnotator	CDS	323	1489	.	-	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNTFIILFTTLFVLGMSVILYQLLNELKNMRSNDPEKDQLKEENLTNIASKAAEEAAKKALEETLKLQQKDWEIYKKDITTTIEPISKTVKELDDRIEYLQKERKQEIGQLDTRLADLLKETNTLSAALSSSTSVQGKWGEIQLRNIVEKSGMINHVDFEEQKGTETGDSIPDMIIKLPNGGIIPVDSKCPMKDFRASLEEQDAEKRKALQVEHAKKCRQHMRTLSSKKYQEQYKDPIDFVVMLIPFEPGFQSALLHDGNLFNDGAETKVFVVSPISLMPLLNLVSETWRQMSLTKNANSIINTAKDLSDRLKKYEELYNTVGDRITSLGKAYNTSVSSYNARLKPSVRDIQELQDLPEDLTDLDSVHLDVKPVIERLETFNSKEEE;locus_tag=LOCUS_7150;note=WP_013390292.1 hypothetical protein (Bifidobacterium bifidum PRL2010) [pid:34.9%25%2C q_cov:71.1%25%2C s_cov:65.7%25%2C Eval:4.3e-42%2C partial hit],MGA_786
sequence52	MetaGeneAnnotator	CDS	1544	2668	.	-	0	ID=MGA_787;product=GMP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KMW9;translation=MRLETEVKLDYKDVLIRPKRSTLVSRKQVDLNRTYNFRNYQSASESLLTPSGKPIHYQGIPIMASNMDGVGTFEMADTLSKLGLFTCLVKTYSVDELKEYFSQENELRREHVAVSFGIRDEDYRNFSTLYKACGSNIKFINIDIANGYLELFVQYIEKLRKNFPSIVIIAGSVVTGEMTEELILAGADIVRVGIGSGSVCTTRIKTGVGYPQLSAVIECADAAHGLDGHIIADGGCTTPADVAKGFAAAADFVMLGGMFSGHDEGGGEVITKRYLTSQFVDDQQVIKEKKFIEFYGNSSQSANVKHYGGLKNYRAAEGKSVLVPYKGSIKDTVQDILGGLRSSCTYVGALNLKQLSKRTTFIRCTQTHNAVYEK;locus_tag=LOCUS_7160;gene=guaC;EC_number=1.7.1.7;note=Q9KMW9 GMP reductase (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:53.0%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:3.2e-103],MGA_787
sequence53	MetaGeneAnnotator	CDS	916	1365	.	+	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGDLNVIIPNKFVAFMGPIEKRDANQRYGHHPEKYVEIFKKWNTTRVVRLNEEKYNKNFFTREGIEHNDLFFIDGSTPPDNIVEDFMNICDSHFASANAGSIAIHCKAGLGRTGTLIGLWAMKHYQIPAEAFIGWIRIVRPGSILGP;locus_tag=LOCUS_7170;note=MGA_788
sequence53	MetaGeneAnnotator	CDS	1384	1611	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNYIKTTDAQAKSAQWAQKLESSPVDKHKAKFGEADQANYLLLAKERSADKHARELFNNEIKEESKSPEKKYK;locus_tag=LOCUS_7180;note=MGA_789
sequence54	MetaGeneAnnotator	CDS	534	1643	.	+	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQPEKALVVAPKIYKSDRNYNHSSDEIKELLNTLGINVSGLISQNISTINPAYFVGKGKANQISAQASELKVDYVVFDEDLSPVQIRNFQKLNKEVRFIDRTGIILEIFYNNAKSKESRTQVELARLEYQLPRLTRLWTHLERQMGGFGTRAGAGETQIEVDRRIIRNKISFLKKRLSDIDKNRIVQSKNRQNFFRVSFVGYTNVGKSSLMKALTGSDVYIKNELFATLDTTVRKLYIGDQNYVLLSDTVGFIRNLPDNLIASFRSTLQEVVDSNLLLVVLDANSQDLYNEIETIKEVLNEIGAKEIDIQYIFNKIDLVGQDKVIYLKKLIPEAILVSAERSLQLSKINESIKKKFESWIKIFQTSQ;locus_tag=LOCUS_7190;note=Q8KCN0 GTPase HflX (Chlorobium tepidum TLS) [pid:46.4%25%2C q_cov:88.9%25%2C s_cov:74.4%25%2C Eval:1.5e-73%2C partial hit],MGA_791
sequence55	MetaGeneAnnotator	CDS	963	1343	.	-	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFLDQCNFNRYRSMVFLLARLIVAAIIFKAGYNKLPVSEVGGLVAKLPEWLRYMVVLFELIGPIFLLLGIRNERFNVLGSLMIAIVMLGATYMKVAVAGNAFLSSGAMYPFSLLIIALILLTDE;locus_tag=LOCUS_7200;note=MGA_794
sequence55	MetaGeneAnnotator	CDS	1336	1923	.	-	0	ID=MGA_795;product=fusion protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011121856.1;translation=MPLVHPISEIQDESTKQLVTFFNETLGFCPNSVLTMNKKPLMADAFINLNKAVMDNAGSISSEFKRIIAYISSNTAGCRYCQAHTIRAAQRYGGSDKRLQQAWDFENSKLFSMQEKIALRFVIAASTSPTNTRFFERELKANWSEEDILEIVSVIALFGFLNRWNDVMGTTLEEEAKQSAEQYLNQAGWEIGKHV;locus_tag=LOCUS_7210;note=WP_011121856.1 fusion protein (Rhodopirellula baltica SH 1) [pid:34.3%25%2C q_cov:99.0%25%2C s_cov:81.8%25%2C Eval:6.0e-33],MGA_795
sequence56	MetaGeneAnnotator	CDS	27	1304	.	-	0	ID=MGA_797;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97D87;translation=MNENLVVILGAQWGDEGKGKITDYFASQADFVVRFQGGNNAGHTIILDDKILKLHLIPSGVLHSSCKLVIGNGVVIDPRVLKNEIEMIQSQGLPLNLAISDRAHLIMPYHVEMDYHLTNFQNELAAGSTRSGIAPVYADKLYRHGLRVADLLNKDLFEKRLRKSYDFNRAVIEKVFQQSIKHTFEEILTEFLSYGELIKPYVVNTTELLSEALENQQNIMFEGAQGAALDVDHGLYPYTTSSNTIAGQIEAGSGIGLNQRKRIIGIAKAYLTYVGRGPFPTEMEQELGEKVRQIGQEFGTTTGRARRVGWIDLVQLKNAHQLNQFSELILTKIDVLSGFESIKLCIGYTLNGKPFNQVPADIENFRQLVPVYETLPGWGSLPEQLQVDELPQPLLNFIQKIEKVVGTKVSLISYGPDRNQTLQIK;locus_tag=LOCUS_7220;gene=purA;EC_number=6.3.4.4;note=Q97D87 adenylosuccinate synthetase (Clostridium acetobutylicum ATCC 824) [pid:46.7%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:9.5e-115],MGA_797
sequence56	MetaGeneAnnotator	misc_feature	1331	2041	.	-	.	ID=MGA_798;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010945973.1:deoxyribodipyrimidine photo-lyase,WP_010945973.1 deoxyribodipyrimidine photo-lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:57.9%25%2C q_cov:99.6%25%2C s_cov:50.1%25%2C Eval:9.3e-80%2C partial hit],MGA_798;locus_tag=LOCUS_7230
sequence57	MetaGeneAnnotator	CDS	245	673	.	-	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFAALVAVAAARHHHHHRSVELLGTEESYEAMNEDQLLVSLESELSLAQSAEARGDGDAAVAKTAAIKNIQKALTARILKRLDDGQPLVEVARKMKAIEGMQPQINDMERRLGIMQSVEPVLENAIKTLQKVVDVRGMGKK;locus_tag=LOCUS_7240;note=MGA_799
sequence57	MetaGeneAnnotator	CDS	1755	1910	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYISGIGATFFDTEKNHYGIFVGGKVLRLLVPFVVAIFVFLIPRLYFGQ;locus_tag=LOCUS_7250;note=MGA_800
sequence58	MetaGeneAnnotator	CDS	1020	1658	.	-	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFEEQISKLSKWNLSKKQNPSLIEKIFLNPVILILFVIALLLSTTFNSKNTISDAEIALSNSMVYFERGDFDNAALQLSSIINQYPRSSQALQASFYLGRISFINGENEEAISYLVSSAGKLDYDVLNKEAYLILGQIAPTSNEAIKYFDTALRFTNSENEIAFITIYKAKRLAQDGSIAEAKSVLDSLDISDISYRELYEEVYGYVISQS;locus_tag=LOCUS_7260;note=MGA_802
sequence59	MetaGeneAnnotator	CDS	267	428	.	-	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEFNRIRENVAKLTNTQKMKNENEENPYSDPQEADVAAQEAEIDPQGQNMLL;locus_tag=LOCUS_7270;note=MGA_804
sequence59	MetaGeneAnnotator	CDS	474	764	.	-	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRTQNQSLVIHFDSNEKFRFNENQDLTRPPELNSRKSGAGGRARALKQKGDLEALSQYSKGPGGGMSVKSAVSAQSRKSRLNSAFGPRHRSFMGR;locus_tag=LOCUS_7280;note=MGA_805
sequence59	MetaGeneAnnotator	CDS	798	1130	.	-	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEGLLYRGKYAGQSGTRNCNFKTQENDGNEGKMTRSMKNVSSTLHVNNRRLSERGYNVNNPISHQGGRNRPQSSRVNTMETPNKLKVRQMKKYFPEEYFKRVGYKYSPS;locus_tag=LOCUS_7290;note=MGA_806
sequence60	MetaGeneAnnotator	CDS	303	827	.	+	0	ID=MGA_808;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97N13;translation=MILSGKEIAKRNGIDLVIDPFNENQLNPNSYNLTLHNELLVYDKPILDMKENNSASKIIIPDEGLVLEKNKLYLGRTIEYTETNSLVPMLEGRSSIGRLGLFVHVTAGFGDVGFKGFWTLEIFCVQPIRIYAGVEICQLFYHTIDGDFDTYSKGKYQKNSGIQTSKLYEEFNED;locus_tag=LOCUS_7300;gene=dcd;EC_number=3.5.4.13;note=Q97N13 dCTP deaminase (Clostridium acetobutylicum ATCC 824) [pid:71.9%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:5.1e-72],MGA_808
sequence61	MetaGeneAnnotator	CDS	841	1098	.	-	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHDNEMMNKRNLGRISPRGLQGGKLSSRNKISGSIEIGPTGTPINDIENQNNGKRGRTDKLCEASPTRLQPSIFTDTHPRKGDP;locus_tag=LOCUS_7310;note=MGA_810
##FASTA
>sequence01
AAGATAATTCTTGTTGATTCAATTGGATTACTCTATCAGTTCTGTTGGCAATCATTTTTCTGCTATGTTGGCGGAGGATTCTCATCTGGTGGAGTGCATAACCTAATAGAACCAGCAGTAGCTTCTAATATCATTTTTTTTGGACCAAACTATCGAAATAACAATTTATTTGATGCTGAAGGATTAATGAATAGAAATGCTGCATTTAAGATTGATAGTGGGGAGGATTTTTTAAAAAAACTTTCTGCATTTTTTCACAATGAAGAAAAGTTTTTGAGTTCTGCTGATGAAGGAGCTAATTTTGTTAAAGAAAATAGTGGTGCAGTCTCAAAACTATTAGAAAGGTTAATCAATGAGTAAGTTATTTCCAGCTAAAGACTTTTTTCTTATTCCCAATTTGATAACCTATCTCCGATTCATATTGATCGCTCCAATGATTTATACTTTCAATAATGGTATGAAAGATTATTTCTACATAATCCTTTTTGTTTCTTTGTTCACTGATTTTATTGATGGAATCATTGCTAGAAAATTAAATCAGACATCTGAATTAGGTAAAACCTTAGATCCAATAGCAGATGGAATTACACTTTTTGCTTTTACGATTCTTTTGACTAAAAAGGGATTGATTGGCTTGTGGTTTTGTTGGTTCTATTTTTTGAGACAATTGGTATTATTAATTTTTTCTTTAGTGTATGTACCAAAATTAAAAACCGTAATTGGCTCAAATTTTCTGGGCAAAACTGGAGTTTGTGTTTTAGCTATCGTTCTTTGCATTTATGCAATTGAATTACCTCAATTTTATTCCTATACAAATACTTTACTAATCATAGCCGCAGTATTATTATCTTTAAGCTTGAGTGACTATATCAAATTTTTCTTGATTCAAAAATAAAACATTTTGTCATACTTATTATTGTTTTCTTATTTCAATAAAGTTAAATTAAAGAGACAAAATGACATACTTTAAAGTCAGTACAAATTATATACCCTCAGGGGATCAGCCAGAAGCAATTGAACAGATTGTTGCGGGGATTAAATCTAATGTTAAGCACCAAACATTATTAGGAGTTACAGGCTCAGGAAAAACGTTTACTGTAGCTAAAATAATTGAGAAAGTTCAAAAGCCAACCTTGGTTATTTGTCACAATAAAACTTTAGCGGCTCAATTATTTTCTGAACTTAAAAATTTATTTCCCAATAATGCCGTCGAATACTTTATTAGCTATTATGATTATTACCAACCTGAGTCTTATCTTCCAGTGACTGATACGTTTATTGAAAAAGATTTTTCGATGAATGAAGAAATTGATCGTTTAAGACTTAAAACCACAAGTTCATTGATTGAGAGAGAAGATGTCATAGTCGTAAGTTCTGTTTCGTGTATTTATGGCTTAGGTTCTCCTGAAGAGTGGAAAAAACAATTAGTCCAATTGAAGATTAACGAAGAAGTTTCACTTCAAAAATTATCAGCTGCATTAGTAGACATTTATTATCAGCGAAATGATCAAGTGCTAGAACGATGTAATTTTTCTATTAAGGGTGATGTATTTGAGATTTTTCCAGCCTATGCTGAAAATCCTATAAGAATAGACCTTTTTGATGATAAAGTTCAATCGATTGTCAAATTTGATTCGCTAACTGGTGAAGAAATGGAAGAATTGAGTAACTGTTCTCTTTTTCCTGCTCGTCATTTTGTTTCAGATAAAGATCAAAATGATTCTGTAATTAAGGAAATCAAAAAGGATTTGAAAAGTCAATTGGCTTTTTTTAATAAAAATAAAAAATTTTTAGAAGAACAAAGATTAAACCAGAGAACAAATTTTGACATTGAAATGATAAGAGAAATTGGATATTGTTCTGGAATTGAAAATTATTCAAGATACTTTGATAAAAGAAAACCAGGTGAGAGACCTTTTACATTAATAGATTTTTTCCCAAAAGACTTTTTAACGGTCATTGATGAATCTCATGTTACTTTACCTCAAATCAAAGGAATGTATCATGGAGACAAAAAAAGAAAAGATAATCTGGTTGATTACGGGTTTAGACTTCCGTCTGCGTATGACAATAGACCATTAAAATCCGAAGAATTTGAAGGACTTTTAAATCAGACTATATACACGTCAGCTACTCCTGGTGAAAAGGAGTTAGAATTATCCCAAGGAGTCATTGCTGAGCTGGTTAATCGCCCCACTGGTTTACTGGATCCTGAGGTCGCTATTAAACCAACCAAAGGTCAAATTGATGATTTGATTAATGAGATTCAAAAGAGAAAATTAAAAAATGAGAGAGTTCTGGTTACAACTCTAACAAAAAAAATGGCTGAAGATCTTTCAGAATACTTAAGTACAATGGGAGTGCGAGTGCGTTATCTTCATTCAGAAGTAAAAACCATTGAGCGAGTGAAGATTTTAAGAGATTTGAGATTGGGCGACTTTGATGTATTAGTAGGAATTAATTTATTAAGAGAAGGGTTAGATCTTCCTGAAGTTTCTTTAGTGGCAATTCTTGATGCAGACAAAGAGGGGTTTCTTCGTTCAAAAAGTTCGTTAGTTCAAACAGCTGGTAGAGCCGCAAGACATCTAGATGGGAAAGTAATTTTATACGCTGATAAAGTGACTGAATCAATGAAATTCTTGATAAATGAGACCAAGAGGAGAAGATCTATTCAAATTCAATTTAACAGAGAAAATAATATTGTTCCTAAAAGCATTATAAAATCTGTTGAAGATATTATGCAATCTACACGAGTTGCAGAATCATATCGAGAACAAGATTTTCAGCCAAAAAGAGACATCCAAACTGACAAGTTTTTGATTGAGGATAAAAAATTATTAATAGATATGTTGTCTGAAGAAATGCTTGAAGCCGCTGAAAGACTTGAATTTGAAAAAGCGGCAAGCTTGAGAGATGAAATTACTAAGCTAGAAAAAGAAATCTTTAAAAAAACCAAAGGAAAGAAATGAATATTGAATTGATGAAACAAAAAGCTGGTATTGTTGGAGACAGCGAACAGATTAATCAAGTGATGGATATGGTTCATCAGGTCGCTGGCGTCGAAATTTCTGTGTTGATTAATGGTGAATCTGGAACGGGAAAAGAACTAATAAGTAAAGCGATTCATTTGGGAAGTAAAAGATCCAATAATGATCTTATTGTTGTCAATTGTGGCGCTATTCCTGAAGGCATTATTGAAAGTGAACTCTTTGGACACAAAAAAGGTGCTTATACGGATGCAACAGAAGATAGAAAAGGATATTTTGAAGCTGCAGATAAAGGTACCATTTTCTTAGATGAAATTGGAGATATGCCTTTAGAAACACAGGTTAAAGTACTAAGGGTTCTTGAATCTGGAGAGTACATGCGTGTTGGGGATTCTAAAATAAAAAAAACTGATGCTCGAGTAATTGCTGCTACAAATAAGGATTTAGCAAAACTTGTTCAAGAAGGAAAGTTTAGACAGGATTTATATTATCGACTAAAGACTGTAACCATTAATCTTCCTGCTCTTAGACAAAGAAAGTCAGATATTCGTTCTTTAGTTGATCGCTTTGCTCTTCAATTTAGTCGAACAAATAACATCAAGTATAAAGGATTTACGCCTGAAGCTATTAAAGCACTTCAACGTGCAAATTGGCCAGGGAATATTAGGGAATTAAGAAATTTTGTAGAAAGTATTTTGATTTTACAGAAAGGTGAACGAATCACTGGAGAACTGGTTGAACAACAGCTTGAAAATGAAAATCTTGCATCTTTTTCAGGAAATCCGTCTCTTCCAGTAATAGTTAGGCAAGATCCCGATCAAGCTGAAAGAGAATTAATTTTGAGACAGTTATTATTTTTAAGACAGGACATTGAGGAGATAAAATTAATGCTAAAAGAAAGTGGTGATTCCTCATTAAATTATCATAAGAATATTAGCACTCATTACAATAAACCAATTGACGATAATTTTATCAATGAGGTGACAGAAGAAACTTTACTTAAAAACGACGCCATTGGTGCATTCAATACAAAGGATTTAGAAAAAGAAATGATTGTTAGAACACTCGAACATTTTAATGGAAATAGAAGAGCTTCTGCTAAGTCACTAGAAATGAGTGAAAGAACATTATATAGAAAAATAAATGAATATGGCTTGGATAAAAAAATTATTAAATCTTAATACAATTTTATTCTCACTTCTCGCAGTTGGTTGCTCCTATTATTCGTTAGCAGGAAACCTTCCTCCTGGAATAAGGTCTGTTTACATACCATTATTTGATAATGAAACCACAGTTGCAAATGTTGCCGAAACTCTTACAACGCAAATATCTAATCAGATTTCTGATCAGAATATTTTAGAGTTAGTTAATTTTGAAGAGTCAAGCCAGAGTTTACTCAAAGGAGGGATAATTTCAATCTTGGATACTCCTTATACTTTTAATGCGAATGAACAAGTCTCTGACTACAGATTTACGATTGAAATTGAAGTATCTTGGATTAATAGTCTTACTCAAGAGATATTTTTTGAAAAAAAATTCACTTCTTTTGGCATTTATAGTATTGATTTAGATCCAAGTATGGATGGCTTAGATAATGATAATGATGGACTGATAGATGGGGACGATTCAGATGAAATTGGAGATTCGAGAGATTTAGCGATTAATGTTGCTTTAAATAAAATTGCGATTGATATTGTTAACGAAATTTTAGGAACTTGGTAAAGAATGGATTACACAATTAACAAATTAAAAAAACATTTAAATGAGACTGTTGAACTAAAAGGTTGGGTTTACAACATACGTTCAATTGGTAAAGTTTGGTTTATGATTCTAAGGGATGGAAGTGGTTTTATTCAATGCGTGGTTTCTAAACAAGACGTAGATGAATCAATTTTCGCTCTTGAAGAGTCACTTACGCAAGAATCTTCAGTAGTGGTTCATGGTGTTGTTCAGGAAGATAAGCGCTCAGAAATTGGTGTTGAGATTTTGGTTAAGAATATAGAAGTGATTCAAATTGCAGAGGAATATCCAATTTCCTTAAAAGAACATGGAACAAGTTTTCTTATGGATAATCGTCATTTATGGCTAAGGTCTAAAAAACAATTTGCTGTTTTAAGAATTCGCCACGCAGTTATAAAGGCAATTAGAAATTATTTCGATAACAATGGGTTCGTTTTAATTGACTCTCCAATGTTCACTGGCAATGCTGTGGAGGGGACAACTACTCTTTTTGAGACAGATTATTTTAGTAGATCAGCTTATTTGACCCAGAGTGGTCAATTGTATCAAGAAGCTGGTGCACTAGCATTTGGAAAAACATATTGCTTTGGACCTTGTTTTAGGGCTGAAAAGTCTAAAACTCGTAAGCATTTAACAGAATTTTGGATGGTTGAACCTGAAATGGCATATTTTGATTTAAATCAGAACATGGATTTGATTGAGGATTTCATCGAGTCGATTATTTCTTCTGTTATTCAAGAATGCTCTTTAGAGTTAAATATTTTAGAAAGAGACATTTCCAAGTTGCAAAATATTACTAAGCCTTTTCCTAGAATTTCATATGATGACGCTGTCAAGTTGCTCAATGACAATGGTCATGAATTCAAATATGGTAGTGATTTTGGCGCTCCCGATGAAGAAAAAATTGCTTCTTTTTACGACAAACCAGTTATGATTCATTCTTGGCCCTATGAAACAAAAGCATTCTACATGAAAAGAGATAATGCAGATAAATTAGCTTTAGGAGTAGATGTAATTGCACCTGAAGGATATGGAGAGATTGTAGGAGGTGGACAGAGGGAAGATAACCATGATATTCTTGTTAAACGAATCAAAGAACACGGATTGCCCTTAGAGTCATTTAAATGGTATCTTGATTTGAGGAAATTTGGTTCTGTTCCTCATTCTGGATTTGGAATGGGTTTAGAAAGAACTGTGGGGTGGATTTGTGGTACAGATCACATTAGACAAACAATTCCATTTCCTAGAACCATGACAAGATTGGAGCCTTAAATGAAAAATTTTAAAGGAAGAATTGCTGTTTTTGGTGGTCGTGAAATCACTGAAGAAATTTATAATGACACAGTCAAAATTGGTGAACTAATGGCAGAAAAAAATTGGTTAGTTTTCTGTGGAGGCTATGGTGGAGTTATGGAAGCTATAGCTAAAGGAGTTTCTAATAAAAATGGCGTTTGTATCGGTATTCTAAAAGAAAAAGAATTTGATCAAGGAAACTCTTTTCTGACCATTCCTATTTCTACAGGAATGGATATTTCGAGAAACTGTCTATTAAGTTATAATTGTGAGGTAGGAGTAGCAATCTCCGGCGCATTTGGTACCCTAAGTGAAATAGCTTACACATTATCCCAAGATAAACCGCTTATCTCCTACAAAAGTTGGGACATAAAAAATTCTATAAAAGTTGATAGTATTAATTCTTTAATTGAGGAAGTTGAGAATTGTCTAATCAAATCAAAGTAGCAGTTTGTCAAATAAATCCAACAGTTGGAGATGTCGAAGGTAATTTTCGTAAAATTATTGATTTTTACAATCAATCTATTTCTAAAGGAGCAGAACTAGTTGTTTTTCCAGAGCTGATTAGTATTGGTTACCCTCCTCAAGATTTATTGTATAATTCGAAGTTGATTGAAAAAAATATTGAATTATTACAGAGTTTTTCAAAGCAATCGACAATCCCTGCAATAATTGGATATGTAAATTCAGTTGGTGGAAAAATATATAATTCAGCTGCAGTTTGTAGTGATGGAAAAATTGATTTTTCTTACGATAAAATGCTTCTCCCTAATTATGATATTTTTGATGAAAAAAGATATTTTATCTCTGGAAAATCAATTGGGGAAGTCAAAATTAAGATAGGCGATTCAGAACAAAAGGTTGTTTTGCAAATTTGTGAAGATCTGTGGGAAGATTTACATGATAGTAAATTATCTTCAAGCATTGAAAAATTGAATCCTGACTTGATTATCAATATTTCTGCTTCACCTTTTTCGAATGAAAAAATTAATTCCAGAATAGATTTAATAAAAAAACACTATAGTAAAACAAATTGTCCATTTATCTACTGTAATCTTGTCGGGGCTCAAGATGAGATAATTTTTGATGGAAATTCTTTAATCTTTGACAAAGATTATAAATTGATTTCTAAAGGGAAATCTTTTCAAGAAGATTTATTAATTTCTAATCTTGTTGATTTTGAAGATATAAAAATCTTATCTACTGAAGAAAATTTATTTAATGCGCTTACCTTGGGTATTAAGGACTATTTTATAAAATCAGGCCATATGAAAGCTGTGATAGGATTGAGTGGTGGAATTGATTCAGCTTTAGTCGCTATTTTAACTGTAAATGCTTTGGGTAAAGATAATGTTTCTTTGATTTCACTACCTTCACGATTTTCAAGTGATCATAGCAAAATTGACGCATTAAAGTTAGCACAAAATTTAGAATGTAATTTTCAAACCATAGATATTGACCCAATTTTCCAAAGTTATATCAATGAGCTGGAAGCTGTGTTTGAGAATCAAGAGCAAAGCATCGTTTTCGAAAATATACAATCAAGAATTAGGGGGAACCTTCTTATGGCTTTATCCAATAATGATAATGCGCTTGTAGTATCAACAGGTAATAAAACTGAATTAGCTCTTGGTTATTCAACTATTTATGGAGATATGATCGGTGCGATTCTTCCAATTGGTGACTTAACTAAGATAGAGGTATATAATCTTTGTGAATATATTAACAAACAAGATAACCTTATTCCGCAAAATATTTTAGATAAAACACCATCTGCAGAACTTTCCCCAAATCAAGTAGACCCTTTTGATTACAAACACATTAGTCCAATAATTGATAAATTTATTACATCAAACCATAATACTGAATTGAGTAGTTCATTTAAAAAATTAATTTTAAGAAATGAATTTAAGAGAAGGCAGGCTCCAATAATTTTACGAGTCAGTTCAAAATCATTCGGAGTTGGAAGAAGAATGCCTATCATCAACAGCTTTAATGAGTAAAATTAGTTCCATAAGAAACTTTTGTATCATTGCTCATATTGATCATGGTAAATCTACTTTAGCGGATAGAATCCTAGAGCATACCGAGACTATATCTAAAAAGAAAATGCAAAATCAGGTACTTGATAGCATGGATTTAGAGAGAGAAAGAGGAATTACTATTAAGAGTCATTCAATCAGAATAAACTATAATAATCATATTCTGAATTTAATTGATACTCCTGGACATGTAGATTTTACTTATGAAGTTTCAAGAACTCTATCTGCTAGTGAAGGAGCTTTATTAGTTGTGGATGCAGCACAAGGAATTGAAGCTCAAACTGTTACTAATTATTTGCTTGCTTTGGAAAATAATCTAGAAGTCATTCCTGTGATGAACAAAGTCGATTTACCTAATGCAGACGTAGAAAATGTTTCAGAGCAAATTATTGATTTGATTGGATGTAAGAAGGAAGAAATATTGCATGTTAGTGCAAAAACTGGATTAGGTATTGAAAATGTGTTGGACGCAATTATTAATCGTATTCCTTCTCCTAATCCTCCTGAATCAGATGCATTTAAAGCTTTAATTTTTGATTCAATCTTTGATCGTTTTCGAGGAGTAGTTGCGTATGTAAGAGTATACGAAGGTGAAATTAAAAGAGGTGATAAAATTAAGTTCTTTTCTCATGGGACTATTTACGATGTTGATGAGGTGGGTCATTTTGTCATTGAAAGAAAAAAGTCAGATTCCCTTTCTGTTGGAGAAGTTGGATATGTAATTGCAAACATTCGGGATATAGAACATGTTTTATCTGGTGATACAATTACAAATTTTCAGAAACCCTGTGATGTACCTTTGCCAGGATTTCAAAAAATAAAACCAATGGTTTTTTCAGGATTATTTCCTTCTGATGCAGAAGACTATGATGATTTAAGAACCGCCTTAGAGAAGCTGAAGTTGAATGATGCTTCTTTAGTTTTTGAGCCTGAAGTAAGTGATGCACTTGGCTTTGGCTATAGATGTGGATTCTTAGGATTGCTTCATATGGAAATTATTCAGGAAAGGTTAGATAGAGAATTTGGTCTATCCATAGTTACAACTCCTCCGAATGTTAAGTATTTAGCTAATCTAAAAGATGGGTCTCAAGTTGAAGTTCAAAGACCTGCATTATTACCAGAACCAAAATTCTTAGAAAGTCTAATGGAGCCAATTGTTAGAGCAGAAATTCTTACTCCAGTGGAATATATTGGAAATGTAATGAAATTATGTCAAGATAAGAGAGGTCAATATAAATCTACTTCTTATCTATCATCTACTAAGGTTCAATTAATATATGATTTACCCCTAGGAGAAATACTTTTTGATTTTTATGATAGAATGAAATCTTGTTCAAAAGGATACGCTTCTTTTGATTATACTTTTAAAGAATATCGTATTGCAAAGCTTGATAAGCTAGATATTCTGATTAATAAAGAACCTGTAGATGCATTGTCGATGATTTGCGCAAAAGAAGATTCATATCATCGAGGGTTGGCCCTTTGTCAAAAATTAAAAGAGCTTATTCCTAGACATCAAATTCAAATTCCTATTCAAGCATCAATTGGCAGTAGAGTAATTGCTCGAACCAACATCCAGCCATTTCGAAAGAATGTTACTGAGAAACTTTATGGAGGAGATGTGACAAGAAAAAACAAACTTCTCCAGAAACAGAAAAAAGGTAAAAAAAGAATGAGAATGATCGGTAAAGTAGAGGTTCCTCAAGAAGCTCTATTAGCTGTATTGAAAATATAAGTGATTGATTATTTTAAAATTTCTAAATCGCCTTTCTTTTCTTTAATTATAACTATTCCACTGTTTATTATTTATGAGTTAGGAATTTTTTATGCACAAAAAAATGAAATTTCAACTTTAAAAAATGGTGCCGATGTTATTATAGAGGATATTCTTTCTTTTTTTGGTTTTAGTATTTTTTACACCCTTTCTTTTTTCTTGTTATTTTTTGCCTTATTTTTTTCCTGGAAACATAAAAAAGATTTTAAATCTTTGAAGCTTAGATTTAGCTATTTTATACTTTTTCTAATAGAATCAGTATTATATAGTCTATTATTGGTAGTTATCATAAAAAGTATCCCTCTTCTAATTGAATTTAAGTCGATGTCTTATTTTGATTTAACGTTGTTAATTGGTGCTGGAATTTATGAAGAACTTTTTTTTAGAGTAATTCTGATAACTTTTTTTACAAAAATTCTTCAGTTTATTTTTACGAATTCATCCAAGTTTTTTTGGATCCCCATAATTTTAAGTTCAATAATCTTTTCACTTTTTCATTTTATTGGAATTGATACATTTTCTCAAGATGCCTTTACTCTAAGATTCATAGGTGGAATTTATTTAGCTTTGGTTTACCATTTTCGTGGATTTGCAATGGCATCAGTAACTCATTCTCTTTATGATATTATAGTATTTTTCAGTTAACTTCTGTCCATGAGATTTATTATTTTATTTTTAACTTTTTTTCAGAGTATAATTTTTTCGCAGTCTTCAAGTAATTCATTATCATTAACGATATATCCAGAATTTTCTTATCAAGGGATATCTATTGAATACAAGTTTTTCTCAAATGGAGAGCTTATAAAATTTAACGTTCCGTCGAATATTGATTCAGTTTTATATACCATTTCAGATACCAATTTGCAGAAGGAAGAAATTTTACCAATAGTTGAAAAAACAATTTTTTCTCAACAAGATGAGGGATTACATACAATTTATGCTTTTCTAGAACAATTTGAAAAAATCCCATCTGAAAGAAAGTTTTCTTACAGTTTTTTAACTAATAAGAGCTTTGATAATATAATTTTAAGTTTACAGATTCCTTTTGGATCTGAAGATTTATCATTTCAGGTCAATAACAACGAAGTTGAAGAAAGAGTTAGAGACCAAAACGGTTTAACTTTTTTGCAAACAGAAATATCAGATTTCGATCAAAATGAAAGTGTAGAAATTGGATTGAGATACTACAATCCTCATGGGCAAACTTCTATTGAATATGCTTCAAATATTGCATTTAAAAGTCAAGAAACGGACAATCTTATTACCCCAAAAGTTGATAATATTAAACGATACCCATTTTTGACATGGCAACCAATGTTAATAGTTTTAATAATGGGCTTACTTATTATTTTTAATTATGAGACAATCAAGAAAAAGAATTAAAATTATTTTATTATTTTTAGCTGTTTTCTTTGTTTCTAGCTGTGATTACAAAAGAGAAGCAATTGGAGGAAGTGATGAAATTGTTGTTCTTGCCGCTAAAGAAGATAGAGAAAAAGTAACTTTGGTTTTAAATCAAATTTTTAATGAGAATATTTTTACTCCTTCGCCAGAATCTTTTTATAGAATAATTTTTGCTAATCCAGAAGATTTTAGTGCTCTTAAAAATCAAACGAACTTGATAATAGCCAGTTTAGGTGATTATGAATTAAATCCTGGAACCAAATTATCAAAAGAGCTTTTAGGAACTAAAAAATATACCCAATTGATTGAGAAAGATCAGATTATAATTAGTAAAAATCAATTTGCTAAGAACCAAATTTTTATGATAATTGGCTCTAAAGAAATCAATGAATTACAAAATTTTGCTGAGAAAAATGCCCAATTTATTAAAGAACAATTTGATCAAAATTTTATCAACAAACAAAGTCAGTTTATCATTCAATCTAAAAGACAAGAAATGATAGAAAACGAATTAAAGGAAAAATATAATTGGACAATAAATATTCCTTGGGGTTGGGAAATCATTAAGGATGATAACAAAAATAATTTTTTCTGGATGGGACAAGAAATGCCTTTTAGGTGGATTGCAGTTCACTGGCTTGATGGAAAGTTTTTTTCAGAAAAAGAAATTCGAGATTTTATCGTGGAATTTCCTACAAATAACTTTAAAACTATTCAATTCAATCAGGACTACATTTTTACTGAGTGGCAAAATTATAATGATAATTATGGGTATAAAATTGATGGTTTATGGGAATCCATTGAAGAAGCTAAAGGTGGTCCATTTTCTGGTTTTATTTTTTTTGACCAAGAAACAAACAGGACCTTTTTTATATCTTATTTAGTTTTTAATCCAGGAGGTAAAAAAGTTTTTTATCTAAAACAAATGGAGTTAATTGCTAAAACGTTTAGAAGTAATCCATGAAAAGATTAGTCATATTACCAACTTATAATGAATCTAAGAATATTATATCAGTATTGTCGGCAATCAACGATGTTGATAAATCAATTGACATATTAGTTATTGATGATAATTCTCCTGATAAGACTGCTGAATTAGTTAAGCAGTTTGATAAGGATAATTTATTCCTTGAAAAAAGGAGTAAAAAAATGGGACTTGGGACTGCCTATATTTTTGGATTTGAGTGGGCTATATTAAACAACTATCAACAAATCGTTCAAATGGATTCTGATTTCTCACATGATCCAAAAGAGATTCCTTTAATGTTGAATCTTTTAGAAAAAAATGATTTAGTGATTGGAAGCAGATATAATGGAGGTCTTCGTGTGATAAATTGGCCCATTAGAAGGCTTTATTTAAGCTATTTTGCCAATTTTTACGCGCGAGTGATTACTGGAGTTCCAATTTCAGATTTAACAGCAGGATATAGGGCATGGAAGGTTGAGACTTTGAAAAAGATAAATATTCAAGAGTGTTTATCACAAGGTTATTGCTTTCAAATCGAAACTGCTTTTAGGGCTTATCAAAAAAATTGTAAATTGATAGAACATCCCATCGTTTTTACTGATAGAACTGTTGGAGAATCAAAAATGAGTAGACAGATAGTTCTAGAAACTATTTTTAAAGTATGGTTATTTGGGATTTGGAGAATTTTTGGAACGAAAAAATGAAAAAATATTACTTGCCATTTGAGAAGCCTCTAAGAGAAATTGACTTTGAAATTGATTCTTTCAATTCATTTCAATCAGACCAAGAGGGTAATAACCATCTAATTATTAAAAAAAATGAAATAGAGAAATCTGTTTTTTCTAATCTTTCTTCATGGGAAACAGTTCAGTTAGCTAGACATCCAAATAGACCATATACTCTAGACTATATTAATGATTGGTCCACTGATTTTATTGAATTGCATGGAGATAAAGCTTTTGCTGATGATCATGCTGTTGTAGCGGGAATAGGAAGTATTGATGGCTTAAAACTTGCTATTATCGGTCAGCAGAAAGGAAGGAATACAAAAGAAAATATTTTTAGAAATTTTGGGATGATGAAACCTGAGGGGTATAGGAAAGCTCTAAGAGTAATGAAAATTGCAGAGAAATTTAAACTTCCAATTCTTACCCTAATAGACACTCCAGGTGCAGATCCTGGAATAGCTGCTGAAGAAAGAGGTCAAGGGTATGCAATTGCAAAGAATTTATTTGAGATGGCATCTCTCAAAACTCCAATATTATCTGTAGTCATTGGAGAAGGAGCTAGTGGAGGAGCACTAGGAATAGGTCTATGCGATAAAATGTTGATGCTTGAACATACTTGGTTTTCTGTGATTAGCCCAGAGGGATGTGCTTCTATACTTTGGAAAGATTCTCAAAAAGCTCCTGATGCTGCTGAGGCACTGAAACTTACTCCTAAGGATCTTGTTGAATTAAATATATGTGACAAAATTATTTTTGAACCAGTCGGATGCGCCCATCGAAATTTTGAAGAAACCTCAAAAATTCTTAAGAAATCTATCCTTGAAGAATTTCGCTTATGGAACGAAAAACGTGATATGAATTTTGATTTTTTAAGCTCTAGGGTAGAAAGATATAGTGCGTTGGGGATTTTTAATGAATCCTAGTAAAAATCAAATCTGTAATCTTCAAGATCTGATTCATCTCTTAACGCTTGTAACCAATGACCCCATAAATAATTCTGACGATCAATAAGAAGGCTAAATTTTATTGAATCTTTCTTTTCTTCAAAATCCGCTTCATTAATTTCTCCGATAGCTTTCACTTTGACAAAAGCGTTTCCTCTTATGGTTCTAATTGGACCTACTAAATCACCTTGCTTAGCGTTTGAAAGTGCTCCAACTAAATAATTACTTTTCCCAATAGATTCGAAACTTCCTATCAAAGTTCCTGAATCTTCCTCAATATATTCAAAAGTATCATTTTGATTTTTTAGTTGAGCAAAGTTCATTTCATTTGAGGAAATTGATTTTGCAAGATCATCTAACAACTTTCTTTTCTTCTCAACTAACAGTTCATTTTTTAATTCATCCTGGAGCTGATCAAAAGGGATTGTTGAAGGTTTGTTAACTGAGTCTAAATAGAAAACCATATAAAAGTTATCATTTTGAATAACGTTAGAAACTGATCCAACGGGATTATTGAAGGCAAAACTCACTGCTTGTCTAGCAACTCCTATTTTGTCAATAAAAATAGACTCTTTTTGAACGGGACTAGCGTCCGAAATAGATTGTTTTAATGAATCTGCCATTTCAAAGAATCCAAATTCTCTTGAATCAAAAGAAAATACTTCAGCCTTACTTTTTAATAAATCTTCAGTATCTCTTGAAGGCATTATTCTTAAGAGTATATGGGATGCATCCGCTTGCTCATCTCCATCTTCTGTAATTTTCTTATCATTAATTTTTATAATGTGGTATCCAAATTGAGTTAGTATCGGCCCAATTATATCTCCCTTTTTTCCATTAAAGACTGCTTCTTCAAATTGAGAAATCATGACACCTCTTCCAAACCAACCTAAATTTCCACCTTTGAGATTATTCGGGTCTGAAAAATTACTAGGATCTTCAGTATAATTGTTTGCTAAAATGGAAAAATCCTCACCATTTCTTGCTCTAGATAAGAGTTTTTCTGCATCAGAAAGAACTCGAGATGAATCTAATTCACTGGAAACAATCGGCCAAGAAACATATTTCAAATTCCTTATTTCAGGTTTTTTAAAATTCTCTATTTCTTGATTATATTTTTCAAGAATTAACTCATTCGAAATTTCCAAATCTTCAGTTAAGGATTTATCAGTAATGTGGAGAATTTCTAAACTATAATTAACAAATCTTTTTTTATAATTTTCTCTAATTTCTTGGCTCGATATTGACGCTCCATTAATTATATATTGTTGAAGTTTATAGTTTGGTAGATAAACAGACTGCATAAATTGTTCAACTGGTCTCCAATCAATATTTTCAGGAGTAATAATCGCTCCCATATATTTTTCAATATCAAATTTACCATTTGATTGAAATCCTGGATTTGATTGAAGGAAAGGTGGAGGGTTATTTTTCAATTGAAATAAAACTTCATTATCGGAAATTAAAATACTTCTTTTTTCAATTTCGTCTTGAATAATCAAGTCTTGAATTAATCTTTCCCAAACGATAGCCCTAACATACTCTCTATCCGCATCAGAAATATTTTGACCGGAATCACCTTGAATTCTCAAAATTTCATCTGAAACTAATTGATTAAAATCCTCAAGATAGATTGGCTTATCATTTAATGAACCTATTTGGTTTGGAGATCGTTGTCCAAAAATTTCACTGATACTTGCTCCTCCAACAAGGCCACCAATAGCCATGCTAGCAATAAAAAGAATTAAAATAGTCCACATGACTATTTTCATTTGGCTTCTCATATTTGTAATAATACCCATTGGGGAAGAATTTATAACATGAACAAAAGGAATGCAAAGCTAAACTAATTGATGATTTTTAAATATTTAATCTATATACTATTTGTATTATGAAAAAAATTATATTTATTTACGGAATTCTTGGTCTCATCTCTTCAATCAATGCGCAAAATGAGGTTACATTAGAGTCAGTGCTCGACGGAACTTTTAGAAGTAAATCTATTGGTAGTTATCAGTGGGTAAATGACGAGGATGCTTATTATTTTTCTGAGAAGGATTCATTGGGAACTAACATTTTAAAATATAATGTTGCCACTGGAGATACTTCTGATGCCTTCAGTATCTCAAAAAATCTTATTGAAAATTTTTCTTATTCCTTCAATGCTGATCAAACTAAGTTACTTCTCAAAACAAATAATAGAAAATTATGGAGACATTCATCCTACGGAACCTATCATATTTATGATATTACTTCCCAAAATTTAATCTCAGTTTCTGCAAATCCTGACAGTTTGAGAAATGTTAAGTTTTCTCCTAATTCTGAGTATATTTCTTATGTAAGAAACGATAACAACCTATATGTTTATTCCTTAAAAAACGATGAGGAGTCTCAATTAACTTTTGATGGGAGCGATACAATTCTCAATGGACATCATGGTTGGGTTTATGAAGAAGAATTTGGTAGTTATGATTCTTACAAATGGAGCCCAACAAGCAGCTTCATTGCATTTGCTCAAGAAGACCAATCTTTAGTTAAAAAATATCCTTTGGTTGATTTTGAAACAAAGTATCCTACCGTCAAGTATATTTACTACCCAAAGTCTGGAGAAGATAATCCGATCATTTCTTTAAAATTAATAGATATTGATTCTAGAGAAATTTCTTCCATAGCTACTCCGGAAGATGGGTATTATTATCCTAGAATATTTTGGCAAAAAGAGACTGATAATCTTTTCTATACAACCTTAAATAGAAAACAAAATGATTGGAAGCTTTATTCCTATGAGATTTTAAATGATAGTTTCAGACTGATTCTAAATGATAAAAATGATACTTGGATTGATGCTTTTGATTTCTTTGGAATGTCTGGCGTTTTTAACATTGATATTCTTTCAAATGGGGATATTATTTGGACTTCTGAAAGAGATGGATATAAGCATATCTACAGAAGTCGCCCTGATGGAAGATTTATCAATCAAATAACGAGGGGAGATTGGGAGGTTAATGGAATCTATGGAATCGATGAGGAAAATGAGATTATTTATTTCAATGCCAAAAAAGAATCTGAAATTGAAAATCATATTTACTCCATACGTTTCAATGGTACAAGGTTAAAGAGACTATCTAAAGAAGATGGTTCCCATTATGGTTCTTTTTCCCCAACTTTGAATTATTTTATCGATTATTATTCTAATTTAGAACTTCCTACCCAAATTAAAGTGAAGTCCAATAGTGGTACTATAAAAAGAACACTTGTAGAAAACTCAAGATCTATCTATGACGAGTACGGTTTTACCTATCCAAATGTTATAGATATTTTTACTGATGATGGAATTAGATTAAACGGGTTAATTACTCTACCTCATAATTTTGATCCTTCTAAGCAATACCCAGTCATTTTACATAACTATGGTGGCCCAGGATCGCAAATAGTCCAGAATAGCTGGGGAGCTGGTAGACATACTTTTCATCAATATTTTGCTGAAAATGGATTTATTATTTTTTCTTTTGATAATAGAGGAACTGGCGGTAGAGGTAAAGCTTTTAAAGATTACGCATATGGAGATTATGGTAAATATTTAGTTGAAGATCATATTGCAGCTGCAAAATACCTTAAAAGTTTAACATACGTCGACGGAGACAATATTGGTGTTTGGGGCTGGAGTGGTGGTGGTTATTTAACCAATATGTGCATGACTTTAGCTAGCGATTATTTTAAAGCTGGAGTTTCAGTAGCTCCGAATGTAGATCCATTGCTTTATGACACTATTTGGACTGAGAGGTATATGGGATTGGTAGATGAAAATCCTGAGGGTTATAAAAATGCTTCAGTCTTAACTCATGTTGATAAAGCCAAAGGATATCTGCTTCAAATCCATGGAAATGCTGATGATAACGTCCATCATCAACATTCAATTAAGCTTGCTAAGGCTTATGCAGAGCATGGAAAGCATATGGAGATGTTTATTTACTCAAATGCTGATCATGGCATGGGTAATAATAACTTTTTAGCTACTGAATTCGAAGCGCAAAGATCTAAAAATAGTAGACATCTTTATAAAAAGATGGCTGATTTTTTCTTCCAATATTTGAAATAGATTTAAGAAATTAGCTTAGTCTTTCTTTCCTTGAAGATTTTTTGGCTATTTCAATGAAGCTTTTCATTGATTCTTGATGATTATCTGTAATTGAAAGAATGTCTTTTACCCATTGCTCATCATTGTTTTCAATAAGAGCGGTTAGTCTTTCAATTGTTTGCAAAAAAATACTTGGTAAAAAAGAAGGAGTTGGTGATCCACCAGTACCTCTATTTTTAGTTTGAGTTGAATAAGGATCTGGAGATTTAAGAATATAGCTAACAACCATGCTATAATGATCAATTCTATGTTGAATAATCCATCTGATACAATTTGCTAAAGCTTTTTTCTTATCATTATCGGATTGTATTTGTTGCTCAATTGTAGAGTTTTGAATTTGATTTCGCGTATTAACAATTAGTTTATGATGAGAGGGAGGTCTATATCCTACTCGAAAAGATTTTAATAATCTAGATAATGAATCAAGCTTAGAATTTTCAGGTAAATCAGTATTCGCGACATATCCTGAGAAAAGAATTTTCTCGATTATTATAGGATCAACTTTTTCATCATAAACATAGGCTCTAGTATGATTGCCAATTCCAGTTATTTCATCGGCAATAGGATAGTAAGAGCTATTGGCTCCAGTTTGTCCATGAAGATTAGAAATAAACAATCCTTTTGAATTGTATGTAGGATTTGAATCGTTCCCACAATTTTCGAAGAAAAGTCCATTTTTATCATAAATTGAACCTTGATTTCCATTAAGTCCTTGGATGAAGATTCGAACTTCTTTATTGTAAAGCTCTGGATTACTGACATCCCACATGCAATTAAAAAGTTGATTCGATTGATATAAAGCTTCTTCCATTTGATTCAACGAATTCGTTGAAAACTCATCTTTTAAAATCGCTGCACTTGCATTACTTAAAAGCTTTCTTGAGGTTTCTTCCATAGCTAAATGAGTCATCCTAAAACCCTGCTCATTTCCATCAAAATCGTGAAAGGCGACAATAGGTTTAATTGACCTTATATAGTCTACTCTTTGCTTGGAATTGGATAGTGTATTAACATCTTCTTTTGGTAAAATTCCAGAACGTAATACATAATCTGCAGCATATTCAAATTCTGGTTGTTGTCCTAAAATTTTGGAGCTTAAAAGTAAAATTCCTGCCAAAGGCCATGGAATAAAGGAGTTCGCCTTTTTTTCTCCATTAAAAATTGGTTCAATTTTGGTACCATTTGCTAACCAAGATGACCAACATCGAAAATCAGCAATTAAGTTTGAAGATTGTTCACTTGGATTTTTTAAATGATTTTTAACGATTTCTATAAATCCATCCATTAAGGAAGGATCTAAACGTTCTACTTCCTTGAGTAACTCAAATTTTCCAATTAGTCCTTTGTTACCATTAAGATGAACTGTCATATTTTGAGCTAGGTCTGAAATTGCAGAAAATTTTCCTGGAAGTGGTTCACATAAAAATTTTGGTAAAGTAGAATCATCATTCCAGATAAAATCAGAAGTTTTCTGTATGAGTTGTGCATCAAATTTTAACCCAAATAATTCTTCATGATAATTGATTCCATTTCCAAAGTAAGGGAAATGACCATGATTATTTATTTCAATATGATTTTTCAATTTTACAAAATTGAGTTTAGAAAATCTTCGACAGATGAATCATTCCATAAAGCAGAACCAACATCCTTGACAATAATTTCTCCATCTTTATCGATAATAAAAGTTGTTGGAATTCCTCTAGTGGCAAATAATTCGTCATCTGTGATAATTTTATAAAGAGGTAATTCTTGAAGATTTTCATCTTTTGGTAGGTAGTCTTTAATAACTTGTTTTTCTTCTTTTGAAAGGTACAAGAAAGCAATTTCATTGTTGGTTTCATATTTCTTATATAGCTCAGCCATTTGAGGCATTTCAGCTAGGCAAGGATTGCACCAAGTAGCCCAATAGTTGATGAATAAAACTTTACCTTTAAAATCTTTTAAAGTGTATGATTGACCATCCAAATTTTCAAATTCCAATATATTAGATGTAAAATCAACTTTGGTAATTGGCATATCTTCACTGTTAGGTTTTTCCAGCAAAGGGGGATCAATGATTTGTTGAATATATTTAATTGAGACAGACTTATATCGATCTTTATACTTTTTTAGTTCGTTTCTTGTATCATTTAAAGAATATCCTAAGTAAGCTAATCCAATAACAAGTAAAACTATAATTATATTTTGGTTATTTTTCATTTTTCCAATATAATAATGAATAATAACAAAAAATTATATTTAATTTATTTAAATGGAAAAACTCGGTTACATAATTTTTATTGCCTTTTATCTATTGGTCATATTTTACTCCATCCAATCATTAGAAACGTTTTATCCTGATGGCTTAATGTTGCTTTTAGTTTTTGGTGGAATTCTAGTTTTTTTAATAAAAACTATCAAAGATCGACTATCCAATAAAGAAGATGATTACTATTCAAAGGAGATAAATGAATGATAATTTCAACTCAAGAAACTATTCAAGATAGACCCGTCCAAGAAGTTCTTGGAGTTGTTTCTGGTCAGTCTATTCGTGCACGTCATTTAGGAAAGGATATTTTAGCTGCTTTTAGAAATATGGTTGGTGGTGAAATCACTGAATATTCCAAGCTCATGGCTGAATCCAGAGAACAAGCGATGGATAGAATGATTCGAAAAGCTGAAAAATTAAATGCTGATGCAATTGTTGGCATTCGATTTACTACTTCTATGTTACAAGCTGGAGCTTCTGAGATTTTCATTTATGGAACCGCAGTCAAATTAAAGTAATGCATACAATTCCTGATGATGTAACCAATGCATATGCAGTAATCTTTTCATATATATTAAGTGACAATTTAGAAGGCTATTCCGAAATGGATTTATTGACAATTGATGAGGTCACCAAAATTGACGGATATTTAGGTTATGAAAAATTTGGAAATGGTAAGCAAAATACATTCATTTCTTATTGGAAAAATTTAGATTCTATTGAAGAGTGGAAAAAAAATCTTTTGCATATTGAAGCCAAAAAAAATGGACCTAAATGGTATCAAAATTTTAGAGTACAAATCGTGCAAGTTTTAAAAGACAGCAATTATTTTGAAAAGTAAAGTTTTCCAGATTCAAAATTTTCATTATTTTTTCAGAATTCAACATGATAATTCTACTTTGTTTTCTTTAGATTTTTCTGAAACAAAAAAGGGATTCATTAATCCACAATTATCCTTAAAAATAAGTCGCAATATTACATCTCCATTTGAACGAGAAGTTAAAAATCAAATTCAAGCTTATTTCAATGGAAAACTTCAGAAATTTGATATACCAACTTATCAAGAAACTAATTTATTTTCAGAAAAAGTCTTTTCAGCTATTGAAAAAATTCCCTATGGAAAAACATTAACCTACAAACAAATTGCTGAAAAAATAAAATTTCCAAAAGCTTCTAGAGCAGTGGGTCGCTCCACTGGATCTAATCGGATTCCTATTATCATTCCCTGTCATCGCGTGATAGGATCAAGTGGCAGATTAGTTGGATATAGTGGAGGAGGAGGATTACTTTTTAAATCCTATTTACTTCTTTTAGAAAAAAAATTTAAATAAGTATAAATATTTGTTTTTAAGTTTTGGCAATGTTGTCCAAAAAAAATATTTTATTCTTTATTTTAATTGTTATCACCATTGGATTTTTGAGTTTTAAATCATTTATTTCCCCAGCAAAAATTCAATATGAAGGCATCAATCAAGATCTTGCTTTAAAGGAAAAAGTCGATGTATTCTTCGATGATTTTGGAGTGCCTCATATTTTTGCTGAAAATGATAGTGATTTATTCACTGTAGCAGGTTACTTAGGTGCAAGGGACAGGCTATATCAAATGACTTTCTTGAAATATGCATATAAAGGTCAGATTAGCGAAGTTATAAATGATACTTTATTTTCTAATGATAAGTTCATTCGAACAATTGGCTTCCAGAATGTTGCACTTGAAAGTGAAAAAAAGATTTCTCCTGAAATCAGAAATTATCTTCAATGGACTTGCGATGGAATCAATTCATACATTAACTCTTTATCACCATCAGAATATCCACTAGAATTTAAATTGCTTGGAATCAAAGAAATCCCCTTGTTTGAACCAATTGATATTGTTGCTTTGTCGACAATGATGGCATGGGAACTTGAAGGAGGATGGGATTCAGAATTATTTTTTGGAGCTATTCATGAAAAACTTGGGGAAGAATATTTAAAAGATATTCTTCCTGAATATGACCCCTCTTTTATAACAATTGCTACAAATGATATGCTTTCGGAAACTTTTCAGTCTTTTTCGAATGACTCAAAGTCTCTTAGGAAGTTATTAAACACAGATCGTGAAGGATATGGTTCAAATGTCTGGGTACTTTCTGGTGAAAAAACTGAGTCAGGGATGCCTTTGCTTACTAATGATCCTCATTTAGCATACAATCAACCTCCTTGGTGGTATGAGATTCGCTTAAAAAGTCCGAGTTTTAATTTTGGTGGATATGGTCTTTACGGATTTCCTTTGCCTGTTTTAGGCCACAACGAATCAATAGCATGGGGTTTTACAAATGTTATGACTGATGATATGGATTTCTATATTGAGACCATCAATGAAGATTCTACCAAGTATTTCTTAGATGAAGAATGGGTTGACTTAAAAATCAGAAAAGAAACTGTTCAATTGAAAAGTGGAGAAATAAGACAATTTGATGTTCGTTCTACTCATAGGGGCCCTATTATCTCTGAAATTCACAAAGATGCTAAAAAACTAAACAAAGCAATTTCATTCCGATGGACAGAATATGATGCTTTTGATGAAACCACCGCCTTGTTCAAATTAGGACAAGCAGAAAACTGGGAAGAATTTTCTCAGGCTTCAAAACTTTTTGGCGCTCCAGGACAGAACTGGACTTATGCAGATGTACAGGGTAACATTGGATGGAGACCTAGTTCAAAAATACCGATTCGTAATGGAGGAGAAAAATTATTACCTTTTGATGGATCAACTTCTAAGAATGACTGGAAAGGATATATCCCATTTGAAGAAATGCCATACTTATTTAACCCTGAAAAAGGATATATTTCGAACGGCAATAATAAGACTATCGACGATTCATATCCATATTACATTTCTAGATATTGGGCTGATCCTAGTAGAGCTCAACAAATTGATTCTAGAATTAACTCCAAGGATAAATTGAATGTTGAGGACATGAAATCAATGCTAAATGATATTCATTCACCATTCGGAGAAGAATATGCTAAGATTTTTGTTGAATACTACTCGGTGGGGTCTTCTAAAGAAGGAGATCAAATCTATAATTTAATCTCAGAATGGGATGGAAGTGAGAGCAAAAATTCTTCAGCTACTGTAGCATTTCATTCAGTTTATTTATCCACGTTGAAAAATTTGTTTCAAGATGAATTATCACAGTTTGGAAATACTTCATTTGATACATTTTATAGCTTGAAATACTTACGATCTATCGCTTTACGTAAAATGTTTCGTGATGGAAATTCAAAATGGATTGATAATGTTTCTACGAGTAAAAAGGAATCATTGAATGATATAATGAATCAATCATTTTACGATGCATACTTTTTTATTAAAAATAATTTTGGAGAACCATCAAAAATTGTTTGGGGAGATGTTCATCAAGTTAGTTTTAAGCATCGTTTAGATAAAGATCCTTTGGTTGAAAAATTGATAAAGTTTAGTGTCGGTCCACTCCCAATGAGTGGCTCAGGATTTACTCCTCAAGCCGCTAGCTACAGTGTTGAAAAACCTTTTGAAGTACGTGCTGGTTCTTCAATGAGAAGAATTATTGATCTCTCAAATTTAGATAATGGATTTAGTATTCTTCCTACAGGTCAATCTGGAGTTTTTGGTTCAAAACATTATGATGATCAAGCAGAGCTTTACAATCAAGGATTATTTAAGAATTTTAGATTTTCCGAAGAGGCAATTAGAAGTGATGCTAATATGAAGAAACTGTTGTTTAAACCTGCAGATTAATTAAATTTGAATGATGGATAATGTTTTCAATAAAATCAGCCTATCATTGATTGGTCTTGCATTAGTCTTTTATTTAATTTCAAATCAATTTACTGCTTTAATTCCTGGATTCATTGGTGGATTCATTCAGTTAATGTTAATGCTTGGAAGACAATTTCCTTCGATGCATAAACACTTTGCTCATTTGAATCTTTTCTTTTTTGGCATGGGTTGTGGTGCTACCTACAAGTCAATTCCACTCCTTTTTGGTTATTTGTTAAGTGGTAATGATCTAGATAGACCTTTAGCTACTCTTGAGCAATTTTTAACTTTTGTTTTATGTTTGATTGCTATCTTACTTGGGGTCCAATCCTTCATTAATGCTAGAAAAAAGTAATTCTATTTTACTTTTCCAATTTTCTACTTTCTAACATTAAGGAAGTCAAATAACTTTTAATACAATAAGAATAAATGAAAAAATTTATTATATATACTTTTTTACTTTTTGGATGTCAATCTGGAAATGACACGCTCTACACGGAAGAGTGTGAAAGTAATTATTCTACTAAAGACATTCTTACAGATATAAGTGTCAGGATGTATAACAGTGATGAATCTATTAACGCATATAGCATTTATAGTTGGTCATCTAATGAAACTTCCAGAATATTAACTGGGAATGGGATTCCGAATCATGAAGTTGGAACATTTCCAAATAATAATAATCCTAATACCATTACTGCTCAAAATATAAGTGAGACATTCACTCTTTGTCCTGAAATTGTATCGAATAATGGAGTTAATGTAAATGGTCCTGCACAAATTATAGCATATGCAATAAATAGTGTAAAGTTTGACCCTGCTACAGCTGGAAGATGTGATGATAATGGGGTATGCAGCTTAGCTCAAGGACAAGGCAATTGGAGTATTGAAGCTTTAGGACACAACACGTTTGATTTTGGAGATGATATGAATCATGCTCATGTTCAGCCTAATGGTCAATATCACTACCATGGCATGCCAGAACTCTTGGTTGATTTCCTAGGAGAAAATCAAGGAATGACCTTAGTGGGGTGGGCAGCCGATGGATTTCCAGTATATGCCCGATATGGTTATTCTAATTCGTTTGATTCTAATAGTGCTATTGTTTCATTACAATCAAGCTATCAACTAAAATCTGAAGGCGATCCAGGTCGTCCCAACATTTTAACAACATTGGTTGGTGGACCTGGTCAAGGAAATTCATCTCCTAATATTCCAATTCCTATGGGAGCCTTTACTCAGGATTATGAATATATAGAAGGTTCTGGAGATTTGGATGAATGTAACGGAAGATTTGGGGTAACCCCTGAATTTCCAGATGGGATTTATTATTATGTTGTAACAGATGAATTCCCTTTCGTTTCAAGATGCTTGAAAGGTGATTTTAATTAATTTTTTACTTTTATTACTTATAGGTAGTCTAATATATGAAAAGCGATAATGAGCTAATTAAAGATTATCAAAATGGTGAAATTGAAGCTTTCAATGAATTAGTAAAAAAACATTTAAATATGACATATAATTATTTTTTATCTATCACTCAAGATAGAGTTGAATCTGATGATTTAACTCAAAAAGTTTTTTTAAACTTAATCAAAGGTTTAAAAAACTTTCGATTTCAATCATCATTTAATACGTATTTATACAGAGTAAAGATTAATGTTCTTAATTCCTATTTTTTTAAGAATAAATGGAATTCATTTCTGCATTTAGATCAAATTAAAGAACCTTCAATCGATGATTCAACTCATGAAAAAGCCTTTTTGAGTAAAGAATTATGGAAAAATATTGAGATGCTTCCAAAGAAACAGAGAAATGTTATTGTTTTAAGGATAGCAAATCAACTTAGTTACAAGGAAATTTCAGAGGTACTATCAATTTCTGAGGATGCAGCAAAAAATAATTATGCTCATGGGGTAAAAACTCTAAAAAAAAGGATGAATCATGGATGATTTAAAAAAAGCACATTATCAATTCGATGAAGTGATTGATGAAGGTCAATTTTTAAACAATTTATATCAACAGCATCATTTAAAAGAAAAAAGAAAGAAACAATTTCTATATGTTGGTCCAATAGCAATGATTTGTCTTTTTTATTTGGGTTTTAATTCATCATTATTTAGTTCTTCAGAAAGTATTTATTTTAGCGACTCTTTGAATTATCTAGATAGCTTTGACTCAATTGAACTGCTGGCTGAAAATAATTTATAATACAAAGGAAAGATAAATGAAAAAGTTAATTTTAACAATAATGTTGTGTGGCCTAATCTTTGGTCAAAATCAAGATTCTTCTAAAAAAGATATCCAGGACAAAAAAGGAGTATGGCTTGTTGGGATGCAAACAAAATATTTGGAGCTATCCACGGAGCAAGCTGAGAAATTCTTTCCTCTTCAAAGAGAATTCCATGGAAAAATCGAAGAGATTAAGAAAAAACAACGAGATGCTATTAAACAACTAGAGAATGATATTGAAAATCCTACTAAAGCCGATTTCAATAAAGTGATTGATTTAGAAAAAAAATTAAAAATTGAAGCTGCCACAATGCATGCTAATTTTTTAACAGCAGCTCAAAATATTCTAAACGACAATCAAATGGTTAAACTTCTTTTGATGGAAGAAAAAATTAAGGATAGTTTGTCTTCAGAATTGAACGAACGAAAAAATAATCCACGCGATATGAAAAGACGTTTAGATCGTTATCGCAAAAACAATAGAAATAATTAGGAGAAAAAAATGAGAAAAATAACTTTATTTATATTTTTATCGGTCTTTTTTTATTCTTGTAGTGATTCGATGAATCCTTTTTCAAAGGATGATTTGATGAATGACTCACAGTTGATTGCAGCTATTGAGAATGATGCTAGTGCTATAAATATTGATGCTGCAGATTTACCAGTACCTTCTTTACGAGTTGTTGAAGAAGAGTATTTTGATCATATTTTTGTTTCGGCATCTATTTCTCCAAAATATGGCTACAGTGTATCTATGGGAGATATGACTCGTGATGTAGGAGATATCGCTAAGATATATTTTGCTAGAGATGGAAGAATATTAGGATCAGATGATTCAATAAGAAATGGAATTGGAGATGATCGTCATCGTCATGCAAGAAAATGTTTTAGATTTGCTTTTCCTTTGTCATTTCATTTTGGTGATGAGCATTTTACAGCTAACTCCAAAGAAGAATTTATGAGTATTTTAAAACAGCGATATGAAAGTTCCGGTGTTAAAGAAAAACCTACTTTCTCATATCCTATTCAAATAGAATATAAACCGGAAACCGATGGTGGAGACCCAGTAATAGTAACAATTAATTCTGATGAGGAGCTAAAAAATGCCTATCAAGCATGTCGAGGAGATGAGCACGATAAAAAATGTTTTTCGATAGAATTTCCAGTTAGCTTTTATATGCCTGATGGAACGATTATTACTGCTGAAAATGAAGAAGATCTTTCAGAAAAAATGAAAACTTTTTATGCTTCGTTTTCAGGAAGAAAACAAAGACCACAACTAATTTATCCAGTAACAATCATTTTTGAAGATGGATCTGTTATGACAATCAATAATCTTCTAGAAATGAGGAAAGCTTGGAAAGAAAATTGTGGTAGAAATTCTAACTAATTAATTACTCGCATCTACTTAAAAATGGGAGATTTTTTCTCCCATTTTTATTTTAATTCTAAATATTAGTCTTTAATATTGTTTCACTTGGGGCCGTAGCTCAGTTGGGAGAGCGCATGAATGGCATTCATGAGGTCGTCGGTTCGATCCCGATCGGCTCCACTTTTTATTTTTCTTTTCTGTATTTTAAAACTAGATTTCATTCAAATTAATCGAAAGGAATTCTATTTGAAATTGAACACCTATTTTGTAAGCATCATTAGTCTATTCCTCTTATTTGGTTGTACAGAGAATATTTCAGTTGTTTACGACGGAGTTGAATCTGCTGGTAAGTTTATGCCAGCCAATGGAGAAGAAAATGAATTGAATGGCGCAGCATATGTTTTAGCAAGTGATGATTATATGGATAAAGCGCTAAATCTTACTGAAGCATACTCAAATTTAGACTCTGATAAAATGAAGGAACTTTTTGTCGAAGGTGATCAGCTTAACTATTTATTAGAAGAGTTTGAAAACTTAGAGTCTTACTCATGGAAACCCTGGGCTATGATTCCTTTAAGAAATATTGGAGATGATGGTTCATTTGTAATTTCTTTTTCAAACGATGAAGAAGTTCAAAAGAATGGAACTAAATTGAGAGCAAGTTATATCGATGTAATTCGCTTTGATGATGCTGACGAGGGTAAAGTTTCTTGGATTTGGGGAACAAATAGAGACAATCAAGAAAATGAATGTTGTTTAAAAGAGGGTGGAAAGTTTATTGGAAGAAATCCTGATAATGATTGGAACGGAAGACCATTTGTTTTTTCTAATAGAGGAGAAATTGAAACACTTGAAACATTTATTGAAGCAGCAAATAAGCTTGACGCCGAAGCAGTTTCCTTATTATTTACTAATCCCTTCCTTTTTAATGGAGAAGAGATAACTCATGATGAATTAGCTGAAATTTTTAGCAATAGAGAATCTCAAGAGTGGAAACCATGGGCAATGTTACCTATCAAAATCAAAGATACAGACCCTGCTTCTGGAGTTTTAGTTTATTCTACTGCAAAAGTTGTAGGTAAGAATGGAAATAAATGGGAAGCTGATTTATCAGAGCAATATTTCTTTGATCTTGATGGAAAAATTGAAAGTGTTAATCAATATGTAAGAGAATTACCAAAACAGAATGAAAGCCCTGAAGAATAAATTCATTATTCTATTAGCCTGTTGTTCAATATTTGCACAACAGGCAAACCCTAATTTATCAAGGGAAATTACTTTTCCTAATTTAGATAATTATATTACCATAATTGGTGATTTTCATTCTCATTCTGTTTTTTCTGATGGCAGTGTTTGGCCTGATATCAGAATTGAAGAGTCCATTAAAGATGGATTAGATATTTTTGCTGTTACGGAACATTTAGAAAGACAAGTGAACAAAAATGATATTCCTCATCTAGATCGAAATAGATCTTTTGATTTAGCTAAAGAATTTTATCAAAAGAAAGATTTATCCGTTTTTAGAATGTGGGAGTTATATAATCAGCCGTTCAACCCTAAAGAGTTGATTATTATTAATGGGGCTGAAATTTCAAGAGAATTTCCGTATGGTCATAATAATGCAATTTTCTTGAAAGATGCTAATGAGCTTAATACTCCAAATATCAATGATGCCTTTGAAGCAGCGATGGCGCAGAAGGCCTTTATTTTTTGGAACCATAGTTGGAGAGGTCAAAAACCAAGTGCTACTGTATCTCTAACAGAATTCCATAAGGATTTAATTTCTAAGGGTTATTTGCACGGTATTGAAATCGTAAACAAAGACAATTTTTCTGAAGACGCCCTTAGAATAGCTTTAGATTATAATTTAACGATTATGGCTAATTCAGATATTCATGGAATTATTGATTGGACATATAACCTTAAAGAGGGTGGCCACAGACCTGTGACAATAATTTTCTCTAAAGAAAAAAATGAGAAAAGTATCAAAGAGGCTCTTTTTAATAGGCAAACAGTGGTCTGGCACAATAATACATTAGTTGGTAGAAATGAATGGCTTTTACCTCTAATTGAAAAGACAATTTTAATTGATTCAATTTCTCTATCAGAAAAAGGCGGTGTAGTAAATGTTTTCTTGTCCAATAATTCCGATACAAAATTTATTTTAAAAAATATAAGTAAGTTTGATTTCTTTAATGATTCAAATATTGTAGAGATTCAACCTCAAGGTAGCACAAAAGTTTCTGTCATTTCTAGAGGAGATGAAAAAATTAATCTTCGATTTGAGGTCCTAAATGCTATCTATGCACCAAGAATGCATCCAGTATTAGAAATGAAAGTAAGGTAGAATTATGAAAAAATTTATATATCTAATAGTTTTAATTTTAATTGTAATTGGAGTATCAATGATGACCAGTAAAAAAGTACAAGAAGTAGCGGTTATTTCAACAAAATATGGTGATATGGTGATTGAATTTTATCCAGAAATTGCCCCTATGCATGTTGAGAGTTTCAAAATATTAGCGAATGAAGGTTATTTTAATGGAACATTATTTCATAGAGTAATTCCAGGCTTTGTAATTCAGGGAGGAGACCCTAATTCAAAGCTGGATGATCGTTCAATTCATGGGACAGGGGGTAGAGCTGGAAAATTCTTTGGAATTGGAGATGAAAATGATTCTTCAACATGGTTGATTCCTCAAGAATTTAATGCGACACCTCATGTAAAAGGAACGCTTTCTATGGCAAGAACTAATGACCCTAATAGTGCGAGTAGTCAGTTTTTTATTTGCCATGATGTCGCTTCATTTTTAGATAATAACTATACTGTTTTTGGTCAGGTAATTGATGGCTTAGAAACAATTGATTCTATAGTGAATTTGGAAAAAGACTTGAGAGATAATCCTATCGAAAAAGTGGAAATGCAGGTAAAAATCGTTAATAAGGATCAGTTAGATTTATAATTTTCATCAGAGTTTCTTGATTATTATTTAAAACTCTCTTCGTCTCTTGATATCCTATCTCTATTAAATCTGAAGATTTATGAAAGTCCCATCCCTTGAACTCATCTATAGGAGGTTCAATTAATATATCAGGAGAATGGATTTTAAAACTCAATTGAGCAATATTGTTTAAAATAATTTTAGCAGAACGATCCACGATGTCTATAATATTATAATTTTCTTGACTATGTTTTGAAGAAAATAATCCATATAAATTGACTGCTATTGTGATATCTGCACCCATATTATAAAGAGATTCAACTGGAACTGGATCTACTAATCCTCCATCAACACAAAGTCGTTGATTAATATACACAGGAGAAAGTACTCCGGGAATAGCTATGCTTGCTCTAATCGCATTGATTAAATCCCCATCATTGCATTCAATTTTTTCATTTTTTTCAATACCAGTAGTCACAGTAGTTAATGGAATTGATAAATCCTTAAATGTCCGAGCAGAAGATAATGATTTAAAGATTTTTATCACTTCATTTCCATTCATTAAAGATAATTTTGGAAATGTAGGATCAAGTTTTAATAATACGTCCCGCATAAAACTATTTTTTGATTTGATTTCTTTTTCAAATTCTTTCAGATTTCCTGAACTATAAAGTGCACCAATGAATGAACCAATACTTGTTCCAGATATGAGATCGATTGGAATTTCAAATTCTTCTAATGCTTTAATTGCTCCAATATGTGCAAAGCCTCGAGCTGCTCCACCTCCTAAAGCAAGTCCGATTTTTTGTTTCTTTTTCATTGGTTTATCACTATAATTTTGTTTTAGATCATCAGTAAAGGAATTTAATATGTATTTTAGAATTTTATTTATTTATCTTCTCACCATCATGTCTTGCTCAACTAATAGTCCTTCAGAATCCGCTCAAGTTCCTCTAAGGTCAGAGATTGATTCAAAGTATAAATGGGATCTAACAGTTGTATATGAAAATGATGAAGCTTGGAGGAAAGAATTAACTGTCTTAGAACAGTTGTATCCTAAAATGACTTCATTTAAAGGTAAATTACTTTCGAATCCTCAAACCTTATTGTCATCTATTAAATTGGATGAAGAAATTAATCAGTATTTTGGAAGACTTTACCATTATGCTTCAAATTCACTAAACGCAGACCTTACCAATGAAACTTATCAAGTGATGGTTCAAGAAATCAGAAATATTGCTATTAAATATAGTCAATTGAACGCTTTTTATGTTCCCGAACTATTAGAAGCGGAGTATTCGAAAATTGAAGAGTTTATGAAGATTGAACCTGATTTAAGGTTGTACGAAAAACAGTTTAAAGATATTTATATTGCAAAACCTTATACATTAAGCGAAAATGAAGAAAGATTGTTATCAATGACAAGAAAATTATCTGGAATTCCCAATGAGGCTTATGACATTATGAAAGCAACCGACTTTACTTGGGGTACATTTAAAGATGAGAACAACATTGAACTAACTATGTCTGAAGGTAGATATGGTAAATATACTAAATCCCCTAACCGAAGAGTTCGAGAAGACATGTATAAAGCTTTATATGTGCCATTTAAGGAGTCTATCAATACTTTATCAGTACTAATGAAGGGAAATATAGATGGCAATATCTTTTATTCTTCTGCGAGAGGTTATGAAAATGCGCTCGAAGCAAAAATGAAAGGTTCAGGTATTTCAACTGAGATTTATAAAAATTTAATTAAAAGCGTTAATAATAATCTTCAACCTTTACATCGATGGGCTTCAATTAAAGCAAAATACCTCAATTTAGACAAAATTAAGCCTTTTGATACATATGCACCATTAGCGGACTATTCTCGCGAATATACCTATGAAGAAGCCCAAGAAATCGTTATTGGTGCTTTACAACCATTGTTGCAGGCAAATAATGGAGAGCTTCAGGCTTTTACTGAAAGAATGTATCAAGAGAATCTTATAGACGTCTTTGAAAATCAAGGAAAAGAGAGTGGAGCCTACATGTCTTCAACTTGGGGGCTTGATCCAAGAATTAAATTGAATTTTGCTGGGACATTAGATGATATCTTTACTTTAGCGCACGAGCTTGGACATGCTTATCATTCTTACTTAAGCCAAAAAAATCAACCATATCCCTACTATGGTTATGATACCTTCAATGCGGAAGTAGCTTCAGTTACTACTGAATCATTATTGATGGATTATTTATTGGATAATGTTTCCAATGATGAAGAGAAAGCTGTTTTACTTCAAAATTATATCCAGAATATTGGTTCGACATATTATCGACAGGCCAGGTTTGCAGAATTTGAACTATTTATGCATGAATCTGCTGAGAATGGTCAAATTTTAACTGAAGACTTTTTAACTGATAATTTTGGTAAAATGTATCAAAAGTATTGGGGTCCAAGTATGGAGTTAACAGAAGAAGAAGCATATTCTTGGTCTAGAATACCCCATTTCTATTATAATTTTTACATGTATGCATATGCAACTTCCTTTGCTGCAGGAGAAAAAATTTCTGAACGTGTGCAAAAAGAAGGACAGGAAGGAATTGATGGATTTATCTCTTTCTTATCAAGTGGAAGTTCAGACTATCCTGTTGAACTATTAAGTCTTGCCGGTATAGATATGACAACTTCTGAGCCTTTTGAAGCGGTTTCAAGAAAAATGAATCAATTGATGGATGAATTAGAAACTATTTTGGAGAAGAAATGATTAAACTACTTAGAGTTTTTTTTAGCGTTCTCTTTTTAGCTCAAACTTTTGCGCAAGATCAAAATGTAGAGGAAGTTTCTATTGTTTCTACGGCAAATGTTTTTTCAGAATATTTCGACTGTGGGTGTCCTAAAAACCCATTAGGAGGTTTTGCCAGAAAATCTTTCTTTCTTAAAAAAATGATGCCAGACAGACAAACTATCTTAGTTGATGCTGGAAATATTTTTTATAATGATAGTCGAGTCAATCCAGATAATTTGTCAATAGATCAAAGAAAATTTAAGGCCAAGCATCTAGTCGATATTCTTGAGCAATTTAACCACAATGTTGTGAATATAGGTTCTAATGATTTTAAAGGCGGAAAAGAGTTTTTAGTGGATATAACAAATGAATCAAGTGTTTCATTTATTTCTGCCAACTTGAGAGATAAAGAATCTGGAAATCTTTTGTTTAAACCCTATCAAATTGTTGAGGAGGGAGGTTTTAAAATTGGATTTATTGGTTTGAGTGAAGCGACAAGATTTGAATCGATTATCAACGAAAACTTTATAGAAGTCGGAAACAAATACATAAATGAAATTGAAGATTCTGTTGATATAATAGTACTGCTAATAAATTTGTCTGAGCAGAATCAAATTGATTTAGCTTCATCTTTTAAAGACGCAGATTTTATCTTTTTAAGCGGTACTACTAGCGTTACAGGACCAAGAACGAAACAGAGTGAAAATGGTCCAAAAATTTATGCTGGTGGAGTTCAAGGTAAAAATCTTAGTATTCTTGACATAAGAGTTAAAGATTTTAATAATGAAATTACTGATGTTTCTGCGCGTTTTAATAGACTTCAAGAGATTGATTTTCGTTTAAATCGATTACAAGCTAAAGATCCTAAAAAAACCTTAGAATCATTATATTCTGATCAGCCAAATGTCTTAGATTTAATCAAAAAATATCAAAAAGAGGCTGTTGAATTAGGTCAAGCTCTATCTGGAATATCAAATAGAAGTATATTTTTTAGTGTTCCTTTGTCTCCTTCTATCCCAGATGACGAAGAAATCGCTGCATTTATTGATGAGATTGCCCAAAAAGCAGATTTTCCATTGGGCAGAGACTCTTAAAATTGAACTAATTTTTCTTTTAATATAGTTTTTTTTGTTTTATTATGACGGTATATGCGAGTGTAGCTCAGCTGGTAGAGCACAACCTTGCCAAGGTTGGGGTCGCGCGTTCGAATCGCGTCACTCGCTCAACTATCTTTAGTCCAATCTAAAAAGCTAAAAATAATTCTACGATGTACTTCAAGAGAGCTTTCCTTTAATTGAGATTGTCTTAAAGCAAAGTACCAAGCTAACATTTTTAATTCAATATGCTTTGTTTTAATACCCATCCCATATCTTTTGTTTAAGATTTTTTGAAACTTGTTTAAATGGTAGCTTAAAATCTTTATTGAAGCAGCAGAAATTTTAGAATTTTTATTTTTTTTGAATTCAATATAAGTCTTTATCGCTTGGTTCAAAATCATCTCTTTTTTGTTTTGTTTTTGATTTTGAAAACTGCGATCCAAATCTTTTTTCTTTTTAATGCAATCATTCCATGAAAGGGTAGGGCCTAGCTTACCAATTGTAATATTGAAGTATCTTTTTTTGTTTTTAATTGGATCAAAAGCATAGGTGGAATACATTACATAACCATCAAATTTTCCGTTTCTTTTACGTTTATAAATACTACTCATAATGGGAATTTCATATTAATTTCATAAGTAAATTAATGAAAAAAAAATTAACACACAATTTTTATTAACATTATGTTGAAAAGTGTTTAAGATTAATAATATTAATATTTAAAGAAATAATAATTAAAATAAAAAACTTTTTTTATGGCTGAAAAAATTGATATAATATCCACCAATCGTAAAGCGCTTTTTAATTACGAAGTGATTGAAAAATTTGAAGCAGGAATGATTCTAAAAGGCAGCGAAGTAAAAAGCTTACGTGAAAAAAAAATTACTATTAATGAAAGTTTTGTTTCCATTAAGAGTTTCAGAGTTTTTTTAATGAATGCACACATCAGTGAATATTCGCATACAGGTTTTTCAGGCCACGACCCACTAAGAGTTAGGGAGCTATTATTAAATAAGAAAGAGATTATAAAATTACAGAATAGTGTGATGCAAAAAGGCTTAACAATTATCCCATTAAAAGCTTATTTTAAAGGAGGTAAAGCAAAAATAGAAATTGCTTTAGGAAGAGGTAAGAAAAATTTCCAAAAGAAAGAATCCTTAAAGAATAAAGATCTTGAAAGAGAAGCAAGTAGAGAATTGAAGAGGAGAAGATGACAAAGTTATCCGTTGACGAACAGTTAGAAATTATATCACGAGGAACTGAAGAAGTTATCCCTCTAGATGAATTAAGGAATAAAATTGAAAAATCAATCAAAACAAATACTCCTTTAAATATTAAACTTGGATGCGATCCTACCAGACCTGATCTTCACATTGGACACGCTGTTGTATTGAAAAAACTAAGAGATTTTCAAGACCTTGGTCACCAAGCAATACTAATAATTGGGGATTTTACAGCAATGATTGGAGACCCATCTGAGCGCAATAAAACCCGACCTCAATTATCTTTGGAAGAAGCAAAAGTGAATGCAAAAACATATATTGAACAAGCTAAAGTAATACTTGATATTAATAATCTTAAAATATTATATAATAGCACTTGGCTAAATAAAATGAACTTTACTGATGTTATTGAAATGAGCAGTAAATATACTGTTGCAAGAATGATTGAGAGAGACGATTTTACTAAAAGATTTGAATCAGAAATTCCAATATCAATTCATGAATTTTTATACCCTTTAGCTCAAGCTATGGATTCTGTAGAAATCAAGGCAGATGTCGAACTCGGAGGAACTGATCAAAAGTTTAACTTATTAGTTGGAAGAGATTTTCAACGAGAATATAAATCAGATCCCCAGATTATTATAACCTTACCTTTGCTTGAGGGGCTTGATGGAGTGGAGAAGATGTCCAAATCTTACGGCAATTATATTGGTTTAACTGATTCTCCATCTGAGATGTTTGGTAAAATTATGTCAATAAATGATACAATGATTTCCAAATACTTTAAGCTCGCTTTGTTCTATGATTCTGAAGAAATAGAAAATATTGAGACGCAACTTTCTAATGAATCAACTAATCCCAGAGATATCAAAAGACAACTTGCTCGAGAATTGATTGCTCGTTATCATTCAGAGAAAGATGCCTTGATTGCTCAAGAAGAGTTTGATCAAATCTTCATTAATAAATCCACACCGGAGGATATTGAACATTATCAAATTGGAAAAAATACTTTATTAATTGACATTTTACTCGAAAAAAAATTAATTGAGAGTAAAGGAGAAGGAAAAAGATTGATCACTCAGAATGCCATTAAAATTGATAATGAGCCTTGCAAAGATCCTCTATTTGATTTGAAAAGTATAAAAGAAAAAGAGGTTGTTGTTAAAGTAGGAAAAAGAAGATTTTTAAAAATTATACTTTAGAATCAACTTTTATTGTTCAAAATCCTTAAATCTGTATAAATTCTCCAAATAAAAGTAATTAATTTTTTGGAAAAGTAATGTCAAATAGAATAATAGAAGTAAATGATAATAACTTTGAAGATATTGTCATTAATTCATCAACTTTAGTAATTGTTGATTTTTGGGCTGAATGGTGCGGTCCATGTAAAGCTATAGCACCCATTCTAGATAAAATTTCGGCTGATTTTGGCGATAAACTTATTATAGGTAAGGTAAATGTCGACCTAGTGAAAGAAACCCCTGTAAAATTCGGAATTCGAAGCATTCCTACTCTTTTGTTCTTCAAAGAGGGTAAGATCGTTCGTCAGGAGGTTGGTCTGTTATCTGAACAAGTTCTTAAGAGCATTATTAACCAATTCATTAATTGACGGTTAATTTTAACTAAAATTAAGTGACAGATAAAATTCATAAAATTATCATTATAGGTTCTGGTCCTGCTGGTTTAACTGCAGCTATTTATGCATCAAGAGCGAACTTATTTCCATTGGTATTTGAAGGAAATCAACCTGGAGGTCAGTTGACAATCACTACGGATGTAGAGAATTTTCCTGGTTTTCCTGAAGGAGTTATGGGTCCAGAATTGATGGATTTATTCAGAAAACAAGCGGTCAAATTTGGGGCAGAAACCCAGTTCAAAAATGTTAGTAAAGTTGATTTTCAAACTCAACCCTTCAAGGTTTATGTTGAAGAAGAAGAGTTTTTAGCTGAATCAGTAATCATTTCTACTGGAGCATCAGCAAAAATGTTGGGAATTGAAGGAGAAGATTTACTTGGATATGGCTTAAGTACCTGTGCAACATGTGATGGATATTTTTTTAAAGATCAAAACATTGTCGTAGTTGGTGGAGGTGACTCTGCCATGGAGGAAGCTATATTTTTAACTAAGTTTGCTGAAAAGGTAACAATAATTCATAGAAGAGAAGATTTTCGAGCTTCTAAAATCATGCTTGATCGAGCTCAATCGAATCCAAAAATTGAATTTATTGTGAACATGACTGTAGAAAAAATCTTAGGAGATAAAGAAAATGGAGTTACAGGTTTATCTCTTAGAGATACTAATTCTAAAGAAATCAAACATTTCGAATGTACTGGAATTTTTTATGGAATTGGACATGAACCCAATACTAATATTTTTAAAGGAATTATTGAGCTTGACGCTAACGGATATATAGTTACAAAACCAGGTTCATCTAAAACTAATGTGAAAGGCGTTTTTGCTTGTGGAGATGTACAGGATAGTATATACCGACAGGCAATTACTGCAGCAGGTTCAGGGTGTATTGCTGCTTTAGACGCTGAAAAATTTTTAGAAAGTTAATTTTTTATCTGTTCCTTATTTTTTTAAGGAGTAAAAATGGAATTAAAACAAATTTATGATGTCAACAATCTTAAGTTGACATTTAAGAGTAAAAAAGTATTAGAAATTAATACTTTAAAATTTCATAATGGGCTTATCTATGGAATTTGTGGAAATCTTGGATCTGGAAAATCTTCTTTATTGAAAGTATTATCTGCTGAAATTAAACAAAGTAGTGGTGAAGTTTTATACCAAGGCAAGGAATTTACAACTAACTTTTTTGGAAAAATTCGAAAAGAAAAAGACATTGCTTACATTCATGTTGATTTATTAAAAGATTCTTCTACGGTAGAGTCATTTATAAAAGGTCTTTTTGGTAAAAAGTCAGAAAAAATTAAATCAAATTTCTTTACAAATTCTGGTATGGACTCACTATGGAGAGTGAGAATCAACAATCTTTCAGATGGTGAAAAACATTGGCTTAAAATGGTTATTGCCTTAGAGAAAGATCCTCGAGTTCTGTTGGTGGATGATTATGGATTATTCCTCGATTTTAAAAGCGAATCATTGATTCGAAAAAAATTAATGAAAATGAATAGCTACCAAGGTACTACTATCATTTTATCTTCTACTTCAGACTTTTTTCTTAAGCAGTTTTGTAATGTAATTTTTTATCTTGATAATGGACATATTTCAAAAGTTAGAAAAGGTGATACTAGGAGAAAAAATAAAAATTAAAAAAGAATTGCTAGTTGCTTCTTTTTTTCTTTTTTCTTTTTCCAGTTCTTTAAATGCTCAGGTTGATAGTAGATTTTCTACTTTCGATTGGACCATCTTTTCAAAAGTGAATGAAATAACTTCAATTTCAGAAGGTTATTCTCACATTTATTTTGCTGGAGGCAATGCCGGTATTTTACGTTTTAATAGGTTTAGCAAAAGATTTGATATTCCTTTAACTAGAGGACAAGGATTTAAGTCAGAGAGAGTTCAACATGTTTATTTCGATTCTGTTACTGGAATTCTGTGGTTGGTTGGAAATAAACTTATCGAAAACACTCAATTTTTAGATAGTAATTGGAATTCAAAAAGCCTTAGTGAGCTAGGAATAAATAATGGAAATCAAATTCTAGGCATTGGTTCTAGCGAAAATTTCATCTGGTTGAATACTTCATTAGGGTTTTTAAAGATTGACCATATTTCTGGCAGTTTACTAGGAAACTACCCTTATCCAGATTCCAAAAATATCAACTGGGGAAATATATCTGCAAGAGAACTTCAATTTCTGGAAATCAACTTTGATGATTATTTTATCAGAGAAAATTGGATGCTCACAAAGAATGGTGCATATGATCAAAGTGGAAATTTTAGGCAGTTTTTATCTTATTTTGAGGATTCATATGGAAATTTGTGGATAGGCCTTGAGGATGGATATATTCTCTACGGTGAAGAGTTTTCAAAAAATATTTCAATACTTAAGACAGGTATTTGTTGTGAATTTCCTCAATCATTGGTTGTTGAGGACAATAAAATTTGGCTTTCCGGGGTTTCAAAATCAAATTTTTTAATTTCAATATTTGATAAAGAATACGATTTATTGCAAGAAATTTTATCTGAACGCTATCAAGTTTTTAACAATCACAATTTTTATTCTAGCCTAAAAGTTGAAAATGAATTATGGTTTGGTGGTGATAGCCAATTATTAATCTATGATATTTCAAAAGATCAATTTTCAGAAATTAATGAGTTTGACGGTGTTCCAATTGGAAAAATAAATAGTTTAAAAATTTTAGACAATCACATCTGGGTATTATCATCTAATGGAATTGCAGCTTTTGATAGAAGAACTAAAAAACAAGTTTTACCAGAGCTATCCTCAAGAGTTTTTAGATCCAATGCTTTGGTAGGTGATATGGAAATCATTGGAGATGATATTTACTTAATAATGAATTACAAAATTTTTATTTTTAATAAAGGTTCAAGTGGATTTCAAGAAATAGATCTAAATTCAGATTCCTTAAAGACCGATAAAAAAGAAGATATTTTTTACTCTAAACTTTTTTTTACGAATTCGAAAAGAATTTTTTTGACACAGAAAGGTATATTTATATTTGAAGATAATTATTTAATTCCTAACTCAACTTTTTTTGGAAAAAAGGTTTTTGATATCCTGTCTATTAACGACAGTATTTTCATCGCTTTAGAAGATGGCTTAATGTCAATAAATCTGAACGATTATGGAATTGAATTTTATTATCAATTTGATTTCTTAAAATCTATTGTGAAGTTATATGAAATTGATAATAAATTAGTTTTATTGTCAGATAGTGGTCTAATTAGTTTTAATTTCTAAAAATGAAAAAGAAGTTTATCATATTATTTTTTAGTCTTGTATTTTCTCAAAACTTTAGAGAAAATGTTGAGTTATTCACGCATGAAAATTTCATAAAACCGAGCAAGGATGACAAACTTGAAATTGTTTCAATTATGCAAATTCCTAATCTTTCACTTCAGTTTATAAAGAGTGATATTTTTAAAGCTAATTTTCAAGCAAGTATAGTTATTTTAAATGATGATGTAATATTGAATCAAAATAATTTTGAAAAACAAATTACTGCTGAACGATTTAATGACACTGTATCAAGAAGGATAGTAACTATTTTGAAAGCTAGTAATATTGTTGAAAATAAAAATAAAATATTTTCTACTTTTTATCTCAAAGATTTAGACACTAAAAATGATAGTGAAAAAAAGGAAAAAATTAATCTTGATTCTATCCATAAATCACAATCACTGACAATCTACCAACCAATTTTCTTCAAAAAAATAGAAGGAGAATGGGGCTTTGGTCAAGATTTGTTTCCCACTAATATTGAAAGAGTTGAGGCTGTAGATAATGAATTAATTTTTAATCAATATTTCGGAGGTTTCTCAGGAAATTATTCAATCCGAATAGAGTTATTGGATAAGTCAAAAAAGGTGATTTGGTCTGATGAAATTAATGATAAAATATTGTCAGATAATTTTGATTTTAAACCAATCTCTATTCCCTATGACAAAATACCAAAAGGTCAAGAAATAGGAATTAAAATCAATCTTTCTCATAATAACTTGTCTACTTCTAAACTATATAGCTTTGGGTTACTAGATTCTTATAAATACTTTGGTATACCGAATTTAGATCAAGCTTTAGAACAAATGATTTATATCTATTCCGCTGAAGAGAGAAAAGAGTATCGAGATATTCAGGACGATGATAAAGAAATTTTTTTCAAGAAAATATGGGCAAAAAGAGATCCCGATAGAACAACTAAAGAAAATGAGTTGCTTGAAGAATATTTTAAAAGAGTATCGTTTGCAGATTCTCAGTTTTCCAGAGGTTCTTCGCTTGGATGGAGATCAGATATGGGAATGATTTACATTCTTTTCGGAAAACCTGATGAAATTTCAAGAAATTCCAACATTCAGGGAACATACAATATTGAAACTTGGTATTACAATAATGTGAGTAAAAATTTTGTATTTATTGACCGAAACGGTTTCGGTAATTATGAACTAGATCCCCCATTTTTTTATTAAATGATAAGCGATAATCAAAAACATCAAATCATTTCGATTTTAGATAGATTGAAAGACAGTCTTAATGATGAAGAATTAAAGTTATATAACCAACTTAAAAAAGGAGATGACTTTAAAATTTTTTCTCTTTTTACTGATGGTGCATGTGACTTTAATGATCAATACGAGCCAGTAAATGCTGGAATTGGATTTATCGTTTATGATTCTGATAATTCAGTGCTTTTAAAGGTTTCTGAAAACATTGGGAAAAAAACAAATAACGAAGCTGAATATATGGCTGTTATTGAAGGATTGTATAAGTGCGTTGAATTAAAAATTAAAAATTTGAGAGTTTTTTCAGATAGTGAATTAGTTATTAAGCAATTAAATGGTCTTTATAAAGTTAAAAATGAAAGATTAAAATTGCTTAATATTGAAGTTAAAAGAATTTCAAGTTCTTTTGAAAGTATTCAATTTGAACATGTTCGTAGAGAATTAAATGAAGAAGCGGATGCTTTAAGTAAAGAAGGATTGACAAAATAAAACATTAAGAATTATTATAAAGTTAATTAAATTATTGCATGAATTTTATTGAAAAAATAAAGTCTAGTTTCCAAAAAAATATTAATTGGGTTAATGGTGATATTGCCATTGATTTAGGAACTGCAAACACATTAATTTGGGTAACAGGTAAGGGAATCATTATAAATGAACCTTCAATCATTGCAAGATCTACCAAAACTGGAGAAGTATTAGCTGTAGGAAATGATGCTAAGCAAATGCTCGGGAAAACCCACGAGGGAATAGAAACTATTCGTCCATTAAGAGATGGTGTTATAGCTGATTTTACTGCTGTTGATGAAATGATTCAGGGGTTTATTCGTAAAGTAAATTTAAACCGTCTTACACGCCCAAGAATGGTGATTTGTGTTCCTTCTGGTGTGACTGAAGTGGAGCGTAGAGCAGTTAGAGATTCAGGTGAAAAACAAGCTGCTAGAGAAGTGTACCTTGTTGAAGAACCTGTTGCAGCAGCAATTGGTATCGGACTTGATATAAGCAAACCTGAAGGAAACATCATCGTAGATATTGGTGGAGGTACAACTGAAGTTGCTGTTATTTCTCTTAATGGAGTAGTTACAAAAAAAGCAATAAGAGTTGCAGGCGATGAAATGGACGATGCAATTCAGCATTGGTTTAGAAATGAACATAAGTTGGAAATTGGAACAAGAACCGCTGAACAGATAAAAATTTCTGTTGGCTCCGCAATGAGATCAAGATCAACAAAAAATATTTTAGTTAAAGGTAGAGATCTTGTGACAGGTATTCCAAAAACTATTGATGTTCGAGCAGATGAAATTAGGTTAGCTTTAAAAGATCCTGTTAGAAGGATTTTAGAAGTTATAAAAGAGGCTTTGGAATCTACTCCGGCAGAACTTTCTTCAGATATTATTGATAGAGGTATCGTTCTTGCAGGAGGCGGTTCTCAACTACAAGGACTTGATCAAGTATTGAGAGAAAAAACTGGGGTTCCTGTAAATGTAGCAGAAGAACCTCATCTAGCAATTGTTAAAGGTTGCGGAAAAATTATTGAAGACCTTGAAAAATACAAAAATGTTCTTTTATAAGAATGTTGGATTCTTTTAAATTTTTAAAGAATTTTAAAGACAATTTATCTCTAGTATTATGTATCTTTTTATCGTTCTTATTGATGTCTCAAAGCGGTAAAGAATCTTTTAATAATTTTAGGTTAAAATCTTTAGATTTTTTTTCTTTCCTTTACAGCCCTTTTAATTGGATAGATAATCAGTCTTTTTTAATCAAAAAACTAGAGGTTTTATCGCAAGAAAACTTGAAATTAAACCTTGAATTAAACTTGTTGAAAAATCAGGATTCTGAAAATGCTCGTCTAAGGGACTTTGTTCAATTAAAAGAAAAAGTTTTAATTAATTTCATTGGAGCAGACATTCTCTCTAGAGGTTTAAGCTCAAATTTAACTTCAGTTTTAGTTGATAGAGGATCTATTGATGGAGTCAAGGTTAATTTTCCAGTCATGTCATCAAAAGGAATAATTGGTAAGGTGATTTCTGTTGATACTGATGTTAGTGAAGTGCAATTAATTAGCGATGTAAATTTTAGAATGAGCGTCAAGATACTACCTAATGAAGCAGAAGGAATTCTTCGTTGGACAAATGATGATTTTTGTGAAGTTTTTGAAGTTAAAAGAACTTCTGAGGTGAAAATTCAGGATATTGTTGTTTCTTCAAATTTAAGTCCATTTTTTCCAGAAAATCTTCCCGTAGGAGAAGTTATTGGAATATATGATAGTACAGACAAGTCAAGTAAAGTTCTTAAAATAAAACTTTTTTCAGACCTTTCCAGAATTAATCAAGTATTTATAGGATTACAGAATAAGTGAAGATTTATTTAAAATATTTAATACTCTCAATTTTTTTACAACTAATATTTTCTGAACTCATTTCAATCAATGGCGTTCAACCAAATATTTTACTTTTGTTCGTAATTTTTTCATCTTTAACGATTTCTAATGCTTCTTTGTCAACTATTTTAGGATTTCTCTTGGGTTTTGTTGGTGAGCTTATTTTTTATAGTGGTACTATTCTTGGAATTTCTAGTTTTACTTTTAGCTTAGTTGGTTTTTTTGCATCAAAAGTTAGTAATAACTTTGTTTACAGAAATTTTGATTTTTACTGGATAGTTTTTACCGTTTTAGGGATTTTTATTTTTTCAATTTTTAAATATGAATTCTATTTCTTGTCTAACCTCAAATTTATTTTAAGTCCAATTTACATATGTATTTACACTATTTTTGTTGGGTTAATTCTTGACAGATTATTATCATTGAAAAATGAGATTTTGAATGCTCAAAATTGAAAATAGAGCTGATATTTTTCATTACAGGACACTTTATTTCATCCTGTTTTTTTGTATTACTATTTTAATTTTAAGATATTTCCAAATTCAGGTAATAGATTTTAATACCCATTATTCAAAATCGGAGGTGAATAGAGTAAAACCTCGAACGACATATGCTCCAAGAGGATTAATACTTGATAGAGATGGTAAAATTCTAGTAGAAAATTTCCCAACTTACATATTAACTGTTACACCTTATGAAATGAAGAATCAAGATGAACAGTTTTTAAAGATTTCGCAAATTATAAATATTCCTGTTAACGAATTGGAAAAAAGATTCAAAAAATATAATAGGGGAAGATTTTTACCTACAATTATAGCTAAAAATCTTACTTTTGAGGAGATTGTCAAAATTGAAGAAATGAGGTTGGATTTCCCTGGTTTTCAGTATGAAAGGTTTGATGAAAGACTGTATGATTCAAAAAGTAAGAATGATCATTTTTTAGGATATTTACGTGAGATTGATAAAGAGTATATAAAAAACTTAGATTCTGAAAAGATTTACAGAGCTGGAGAGCTTGTTGGTTGGGAAGGATTAGAAAAGCAGTATGAAAATGATTTAAGATACTCCAAGGGAATCGAATATATTGAAGTTGATACTTATGGAAGGGAAATTAATAATTTAACTCTAGAAAATAAGCTTGCATATCCTGGTAAAAATTTAAATTTGACAATTGATTCTGAACTTCAAGATTTTTCTAGGGAGTTATTAGGTGATAAACCAGGAGTTATTATCACTTCTAATGTTCGAACTGGAGAAATATTATCAATGGTCAGTAACCCATCATATGATTTGAATATTTTTAGAGGTGAAACAGATAGCGATGAATGGAAATCAATCATTTCTGATAAGAATAACCCTTTACTAAATAGATCTATCTCTGGGCTCTATCCAGGAGGTTCTCAATTAAAAGTCATCACTGTACTTAATTTACTAGAACAGAAAAAAATTAATCCTGAAGATGAACTCTTGTGCGCAGGTAGTTATTCGCCTCCCGGTAGTTCATTAGTTTTTAATTGTTGGAAAGAGGAAGGTCATGGTGTAGTAAACTTATTTTCAGCAATCGCTCAATCTTGCAATGTATATTTCTATGAAACTGTTCAACTTTTAAATCTTGATAGCTGGGTAAAAACTGCTAGAGATTTTGGTTTTAATGATTTAACGAAAATAGATTTGCCAAATGAAAAAATAGGTTTAATACCTGATAGTAAATTTTTCACTAACACATATGGAAGATGGGGTTGGTCTGAAAGAGGAGTTCTTTTAAATATGACCTTGGGACAAGGAGATATTCAAATCACTCCTATTCAAGCGCTAAAATTCATAAATATTATTGCTCTTTCTGGAAAAGATGTACCTATTTTAAAACTTAATAAAGATAAATCGAATTCTTTTTATACTGATCTTGGCATTACAAACGATTCATGGAGAATTTTGAAAAATGCTTTATATGATGTAGTGAACAAAAATTCTGGTACAGGGTGGAGAGCTAAAGTTGAAGATAGTAGTCTTCAGTCTTTTGGAAAAACAAGTACCGCTGAAAATTCGCAAGGAGAGCCTCACGCTTGGTATATCGGCTATTTTGTTAAGAATGATGAAATTTATTCTCTCGTCGTCTTAGTTGAAAATGGAGGAGGGGGAGGAGCGGTAGCAGCTCCAATTGCAGGAGAAATAATTAAAAAAATAGTTTATAACAAAAATCTTATGGTTAGTTCAAATGCTGAATAAGCTCGGTAAAGACAAAAAAAACTTTATAAATATTTTTATTTCTATTTTAATCTTAACAGTTTTTAGCCTTTTAACTCTTTACAGTATTTCGAACAACCCCCTTTCTTCGAATAGCCCATTTATTAGACAACTCACTTTTATAATCTTTTCATTAATAATTTTTTTTATTGTTAAGGATTTTAAAATAAAATTTATTCATGATAACTCTTCAATAATCTATATTTTATCCTATATACTTTGTTTTATTCCTTTTTTACTTCCTAAGGTTGAATCTACTTATCGATGGATTGATTTTGGGTTTTTTTATATTCAACCATCTGAGTTTTTAAAACTAACAACAGTATTAATAGTTGCTAAATTTTTATCAAATCATCACCTTGAAGTTAAAGAGTCAAGAATAATTATTTTTCCGACTCTATTTACTTTGTTATCTTGTTTTATAGTTCTGCAACAACCAGATTTAGGAACTGCAATTATTATTTTTGCTCCATTAATTCCTATGTTATTATGGTCTGGAGTAAATACTTTTACAGTTTTTTTGATGATTGCCCCATTTATTACAATTATCGCTGCTTCAAATTTGGTTTTTTTCTATTTGTGGGCAGTGGTTATGTTCATTATTTTTCTGACCTTTGAAGTAAGTCTTACAAAAAAAACTTTTCTTTATTTTGCTAATATTTTTGCAGGACTTTTGACTCCAATATTTTGGAATAGTTTAGCCGAATATCAAAAAGAAAGAATCTTAACTTTCTTAAACCCTGATCTTGACCCTATGGGTTCAGCTTATCACATAATACAAAGTATTACTGCAATTGGTTCTGGAGGATTTTGGGGTAAAGGGTGGCAACTCGGATCTCAAACTCAACTCAAATTTTTACCTGTTCAAGAATCTGATTTTATTTTATCAGTCATAGCAGAAGAATTAGGATTTGTTGGAATTTTAATATTGATGATTATTACTTTTCATTTCATTAAAAACCTCTTGGATGTTGCTTTTAAAATTTCTGATTATTTTTCTAGTTTAGTTATTATAGGATTCACCTCAATTTTTTTATCGCATATTTTCATTAACTCTGCAATGACAATAGGTTTATTACCAGTAAAAGGCTTGCCATTTCCATTTATTTCTGCTGGTGGATCTTTTCTTTTATTATGCTATTTAATGATTGGCATTATTACGTCAATTTCTAAAAATTAATCTTAAATAATAGGTTTGAAGTTTTGACTCATTTAATTAACTTCCCATGGTCAAAATAATGAATAAAAAAATCTTTTACGTTACTTCAGAAATGGAACCCTTTGCTTCCGTTTCAAAACTCTCCCAATTCTCTAGCTCTTTCCCCCTTTTTCTTCAAGAGTCTGGATACGATGTTAGATGTCTAATGCCTAAATATGGTTTCATAAGTGAAAGAAAATATATTTTAAGAGAAGTTATTCGTTTAAAAGAAATTCTTTTTGATCTTGATGGTAATTCTTATGAATGCTCTGCTAAAAGTGCTTTTCTTCCAAAGAATATATCTTCCTCTAGATTGCAAGTATATTTTTTAGAAAAAAAAGATTTATTTGATGATTTAAACCATCTTTTATATAAATCAAAAAATGGCCGTTATCTTCTTGATAATGAATTAAGATATTTTTTTTATTCATTAGCATCTATCAAAATGCTTCCTAATCTTTTTTGGTATCCAGATATAATTATTTGTAATGGTTGGACTTCAGCTTTTATTCCGTTTCTCTTGAACTACATGAAAGGCGAGGATACTAATCTTTCAAAAATTAAAACTATTTACTTAGCAAAATCTAATGATAATGAAATAGTTTTAGACTCTAAACAATTAAATCTCAATGGTTCTTTTAAATCTAAATTAAATACTAATTCATATAATGAGATTGGATCATCTTCTGCGAATATGACAATAATAATTGATAATGAAGTTAAAGTTTCTAATGACCTTATGAAAAAGAAAGGATTCGAAGGAAATAAAAATTGCCATATTTTGGATTCAAATGATGAAAATTTTTTTGAAAATTTTTCTAGTTTAGTCAAATCTGTAAAATGAGAAAGTTTTTTATAAATTTAATTCTTTTATTATTTATATCCTGCTCTAAAGATTCTATAGTATATACAGATATTGAAAATCCAAATAATACTCTTAGAACAATTACCCTTACTTTAGATAACCAAAAAACATACCAATCAATTCCTTCCTTAGCTCAAAATTCAAAACTGTTTTTTGGAAATGTATCTGGATCAGATAATTTATTTTCCTTAGTTCAGTTTACTTTGTTTTCTGGATATATACCCCCAACTTCGTTTTTGGATTTATTAGCTGATTCGATTCAGGTTGATAGCGCGCGAATTTTCTTTCAAACTCTTGACACAATAAATAGCTCTGCAAAACTAAAATTATTTGCTTTACCTGTTGCAGATGAAACAATATTTAGTGACTCAACCAACTTTTATTCTTTATCCGAGCATATTGATTTTTCTAATAGTTCTATTTTTTTAAATGAAACAACTTTGAATGAAATTGCTCCATTAGATTCCGTTAGTTATGATACGATAAGCTTTGACTTTAAAGGTGAGAACTTAGAAACTTTAAAGACTAATTTGTTTAACACGGCAATCTATCCAGCTCGAACAATAATGCTGACAACTGAAAATCTTGATCAGTTATTTACTTTAGAAAGCAATGAATCCTCAAGAGAACCAAAAATGAAAGTATGGTTTAAAGCCTTTGTAAATGATACAACTACTGTAGATACATCTATTTTATTCTTTGCAGACAAAGATATAAGTATTATTTCTCCTCCAGAAATTACTGATTTCGACAAGCAACTCATAACTTTAAATGGTGCATCGGGGCTTAAGTCGCTAATTCATTTTAATCTAGATTCGATATCAAGCTTTAACAGAAACGCTATTATAAAAAACGCTAATCTTGTGTTAAATGTTGAAAATAGAAATTTTGAAGATGGGACTTTCTCTGTTGGTATATCTACTATTCAAGACTCAATATCCAATTGGGATTATACTTCATTTTATGAACCTTCAATTGATTATGAAGATTACCAATCGACTAATGTTTATTTAAATTCAAGAAATATTGTAGATAATAAAGTTTCAATACCGATACAGTCCTATATCCAATTATTTAAAAATGGCGCAATTGACAATAATGGTTTAATGATTTTTGGTGGTTCAAGTAATAGTCCATATGATAAAGTTTCTTTTTCTGTTGAAAGCGTAGAGGTTTTATATGTTGAACCGTAGATTAATACTACTTTACATTTTTATGAGTATAATTCATGGGCAATCATCATTGAATGCTTTGGGTTATGGAAATTTTTCAAATAAATTTCATGCTTCTTCCATTTCAATTGGTTCCTCTGGGGTATTATCTACTTTTAAAGAGAACATTTCATTGCATAATCCATCTACTTGGCACAATCTTCCTTTTGCTGTATTAACTACCAGCGTTTCTTATGACCAGGGTTTAATTGAAAATAACGATAGTGCCTTTTTTAATCTGTCATCTACATCTTTAGTTGTTCCTTGGAGACAAAAGCTTAGTTTTGGTTTAGGTTTTTCTCCTCTTTTTTCGAGGGATATAATTTTTGAAGATTTAACTAATGATCAATTTATTTTTACTGATAATGATACTTTAAATTATCGTCGAAAAATAATATCAAGTGGCGGAGCTTCACTTGCGAAATTTTCTTTAGGGTATAAAATTAATGAAATTCAATCCATAGGATTTGAATATGGTACTGTTTTAGGTTCCTCAAGAAAGAGTAATAATCTAATCATAAATGATGTTAACCATTTTCTCCAAGAGAGAGACTATTTTTCTGGAGGAATTGTAGCTTTCTTTTATACTCAGCTTCTTGAAAATTCAATTGGAATTCCAATTACACTCAATACTTTTGTTAGTAAATCTTTGAAAGATATAGGCGTTGAAAATGAAGCATACCAATCATTTATTGATCTAAATGGAAATTCATATCATGATTCAAGTGATTTTCCTGATTTGGGCCAAGCTCTTATTCCAATTAAAAGATTTTCCTTAAATGAAATGAGTATTGAAGAATTTGGAATAAGTTTTGATTATAAAGATGAAAACAGAAATCATTTTATGTTAGAACTATATAATTGGAACGATACTGGTGATCATATTTTTTCATCATCAATAATTGATAGCTATATTGAAAGCTATTCAAAGCTGAACATTGGATTTGTTAGATTTGGAATTCCTTATACCGATGATAGATATGATTATAAAGCAGGTATTTTTTTAGGAGATTATGATTTAAAAAATGTTGATAATGTAAAGGAAATTGGTATAGGTTTAGGAATTGGAATTCAATTTGGTCTCACTAATAATCAAATAGATATTTCATACAATTATATAAAAAGAAATAATTTAGAATTTATTAATGGTAATGAAACCATTCAATCCTTCTCAATAGGTTTGAGTTTGGGTGATTTATGGTTTGTTAAAAGAAGAGAGATGTAATTATGCAAAGTAAATTTTTATTATTGTTTTTAAGTGTTTTATTAAGTTCAAGCTTACTGCAAGCTCAATGTAAAAGAGGAGAGCAGTTAAGAATTACAAATGATGTTGAAATTAAAGTTCTTGATTGCAGAGAAGCGACTAGGCTAATATATAATGAAGGGTGGTATCCTTATTCAATTGAAGATGAACAAGAAGATCGATGTCCTCAGTTAGTTAGTAGTGCCGCAGAATATTACAGAAACTCAAATTGGGAATTGAGTGCTCAGTCTTATGGAAAGCTTATGGATTTACGTTGTGATTCTTGGAATTCAGATTGGGTAAATCCTGATGACTCATATTTGTATTGGTCTATAGCATTACAAAACTTAGGAAAATTTGATGAATCTGAATCTGTGCTCATCAGAGCAATTGATGAATTGCCTGGAAATACTGATTTAATGATTCGATTAGCATATGCATACAAAAAACTAGATAAGATAGATGAAATGATAATCGAATATGAAAGAATTATGGACTTTGGCGTTGAAGACTCCTCTCTTTTACAAGACTTAGCTTCAGCGTATGGTAGTCAGGGTAGAACTGATGAACAAATAGCAGTTCTAAAGAAAATTTTAGACTTCGATCCAAATAATACTTCAGTACAATCAGAGCTAGCTAATGTTTATGAAAATTCTGGTGAAGACCCATTAGAGCTTTTTAAGGCGAGATACAATGACAATCCTGAAAATGCTTCATTTGCCTTAGAATATGCTCAAAAACTAATGGATTCTGGTGAATTATTAACTGCAATCTCTGTCCTTGAAAATTCATTGCTTTACAATAAAAATAATTATTTGGTTTATCAGACATTAGGTAAAGCTCTATCAGAAAATTCTGATTTCGAGAAATCAAACCAAGTATTTGAAAATCTTTTTAATTTAGATAATTCAAATTTTAGAGTTGCAATTCAAATTTCATCTAATTTAATGGATATGGACGAATATCAAGAAGCTTACGAGTGGTCTAAAAAAGCCTTAAAAATCTCTGGAAATAATGCTGAATCACTCTCCCATATGGGAAACTTATTTTACAAAGCTATGCAAAATTGCAGAGGAGATAGTTTTTCATCCTCTGATAAAATTGTTGCTTCATTAGCCTATCAGTATTTCGAATTAGCTGAAAAAAAGGGCAATTCAATGTATTTTAAACAACAAAGATGGCTTGAAGAAAATGATGTTCTCTTTGGATATTCAGACTGGTTTATGACTGATAAAGAAGTACAAGCAACTGGGAAGGTTTCTCCAACTTCCTCTTGTTATGACTGGGTTAGTGAATCGTTGAATAAAAGTAAAGATTGGTAAAAATGTCAGCTCTTAAAGATTCCGATAGAGAAGTATATGAAATTATTTTGTCAGAATCTAACAGACAGAATAATTTTTTGGAATTAATTGCTTCTGAAAATTTTACTAGTCAATCTGTAATGGAGGCTACTGGATCTGTTCTCACCAACAAGTATGCTGAAGGATATCCTGGCAAAAGGTATTATGGAGGATGTGTTCATGTTGATGAGGTTGAAAACTTAGCGATAGAACGTGCTAAAAAACTTTTTAACGCTGAATATGCAAATGTCCAGCCTCATTCTGGTTCTTCTGCTAATATGGGCGTTTATTTGGCTTTTCTTAATCCGGGAGATACAATATTAGGGTTAGACTTAAGTCACGGGGGACACTTAACTCATGGATCTAAAGTGAGTTTTTCAGGTCAAATCTACAATTCAGTAACATTTCATGTTGATAAAAACACAGGATTGGTAGATTTTGACAATCTTAAAAAGATTGCTCAAGAATATAAACCTAAGATGATTATTTGTGGTGCCAGTGCATATCCTAGAACTATTGAATTTGAAAAGTTTAGAGATATAGCTGATAGTGTAGGCGCTTTCCTTTTGGGAGATATTTGCCATAATTCAGGAATTATTGCAGCAAAAAAACATCCTTCTCCTTTTCCATTTTGTCATGTTGTTTCTACAAGTACTCATAAATCATTAAGAGGGCCGAGAGGAGGAATTATTTTACTTGGAAAGGATTACGAAAATCCATTCAAAATAGTTGCTCCTAAATCTGGAAGAATCAAAATGATGTCTGAACTCATTGACGGCGCTGTAATGCCAGGAATTCAAGGAGGACCTCTGATGCATGTTATTGCTGGTAAAGCAGTTGCTTTTAAAGAGGCGTTATCTGATAATTTTAAAAATTATATTCAAAGTGTCCTTGATAACGCTAAGGCATTTGAAAAGAATTTTAAAGATTTAGGCTATAATTTAGTATCAGGAGGTACTGATACTCACCTAGTGCTTCTTGACTTACAAAATAAAAATATTTCTGGTAAACAGGCAGAATTAGCACTTGATGAAGCAGGTATTACGGTGAATAAAAATATGGTTCCATTTGACCCAAGAAGTCCATTTATCACAAGCGGAATAAGAATTGGAACTCCAGCTTTGACAACTAGAGGGATGGGGTTTGATGAAATTAAAGAAATCACTAAAATGATCGACTTAGTTATTAATAATTTTGATAATGAAAAAGTAATATCATCAGTTAAGAATAATGTTCAAGAATTATGCAATCAATTTCCTTTAAATCTCTAAAGAATTTTTTTCTAATATGTCTGTTTAACTTTTTCAATTATTCATGTGCATCGTCCAATCAACTGATGCTTGGTTCTACTTTTTATGAAATTTCAACACCTACTTTTCTAAAATTAAAGCATAGGCTGAGTATCGATTATGACTCTTCTCCTGAAGAGTATCTTGAGTATTCTGAAGCCTTAATTCAATATTCATATGGAATTATCATTGAAAAAGCTGACAGAATAAAAGTTGAAAGCTTCATAGATGCAAAACCATATTTTTCTGAATCTTTAGAATATTTTTTGGAGGCAAAAAAATATATCAAAACAGCTCTTGAACAGAAATATCCTGATTTTGATAATTATTTTTCAAATATGAATGATTATGCCTTTTCCTATGAGGACATTCCTTATTTGTATTGGTTGAGTGCTTCTATAGCTGGTACTATTAAATCTAGTCATGGTGATCCACAATATTTATCAGATCTTCCAAAAATATATTGGTTAATTTCGAGTGCGTCTAAAATTGATGAAAAATGGAATAATGGAGCTTTATATTCTGCGTTAATGAATTACCATCTTTCTTCTCCAATTTATGATACAGATTCACAGAAAAATGCATTAAAGTACTTTAAATTGGCAGAAAAAGAATCTAAGGGGATGGATGTTTCTCTTTATGTTAGTTTAGCAGAAAGTTATGCTGTTAAAATTCAAGACAAAAAGATGTTTGCTGATTTATTAAAAAATGCTTTACAAGTTGAAAAAAAATCAAGCAATCAGTATAAATCTTCAAATAAAGTTTATAAAGCTCGAGCAAATTGGCTTTTATCTAGGATAGATGAACTATTTTTTATGTAAATTATAAAATGAAATTTATTAAATATTTCATATTTGCCTTGCTAATTTCTTCCCTCAATGCAAAGCCTATTATCATTAAGTTAGCGACATTAGCACCTGAAGGTACTCCATATTACAATTTATTACTTGAAATGGGTCAAAGATGGGAAAAGGAAACAAATGGAAAAATTCAGTTACGCATTTATCCAAACGGAGTTGTTGGTGGAGAGAAAGAAACTATCAGAAGAATGAGAATAGGACAAATTCAAGGTTCAGCAATGTCTTCAATTGGGTTAGCTGAATTAACAAAAAAAATAAATGCCTTTACATTACCCTTAGCTTTTTCTGATTACCAAGATGTTGAAAGTGCCAAAAAAGTTATGTTTGATGAAATTCATGATGGATTAATAGATAGTGGATTTAAATTGCTTTTTCTTGTGGATATTGGCTGGGTCTACTGGTTCTCGAAAGATAATATAACGTTTCCGCAAGATCTTAAGGATTCGAAAATTTATACTACTGCTGGAGATTATGTAACAGTTGAATTATTTAAAAAATTTGGTTTCAATGCGGTCCCAGTTTCTGAAAATGATATTCTAACAGGACTTCAAACTGGAATGATAAATAGCATGCAAACTGTTCCAATTCTTGCCCTGAGTTCTGGTTGGTCAGCTTTAATGCCGAATATGCTCGATCTTAAGTGGGGGGCTTTTATTGGGGCAGTTATTATTGATAATAGAGTTTGGCAAAAAATTTCTGAGAGTGACCGATTGATTCTTGAAAAAATTGCTCTTGATATAGGAGAAAAATATCAATCAACCAGTAGAAGTTTAGAGAGAAAAGCCATAGATGCAATGAAAGAAAATGGTATGAATATCATAACTCTTTCTCCTGAAGAGCTCTTAATTTGGAATGAATTTAAAGATGAGATAACTCCTGATGTTATTGAGACTTTTCTGTCTGAAGAGATTTACCAAAAAGTTATCTATTCAATATCAAATGATTGATTTTTTTAAAAAAATAGAAAATAGTCTAATCTATTTTTTATTTATTTTAGTTATCATTTTACCGTTTTTTGAGATTTTATCTCGATATGTTAATATTCTTTCAATTCCTGCAAATCAAGTAATTGTCCAGCATGGAACTTTATGGATTGGATTTGTTGGTGCTGTAATAGCTGCAAGATCCAACCGACTTCTTTCGATTGTTAAAAATCCAATCTTCAATCGTTCAGATTCATTTAATATTATTCGATATATAACTCATATTCTATCTGCTTCTATAGTTCTTATTTTAAGTACTTCATATTTTAAAATAATACAAATAGGGATTCAGTATCCTAGTTTTGTTTTTCCTTTTGTAACTGAATGGTTTGTTCAATTAGTAATCCCTCTTTCTTTAATCTCTATTTGGTTTTATTTAATCTATTTGAGCTCATCAAATTCTAAATATAGGTTATCGGTATTTATCCTCTCTATTCTCTTATGTTTGCTTGCTTACTTTATTCCTTTCCCGACTTCAAACGTTTATATTTTTTTATTTTTTTTCATTCTTTTAATTTTGGCAGTTTGGAACGGATTACCGATTTTTATTACTTTAGGAGGTTTTTCAATAATATTTTATTTGTCTATTCCCACTGATTGGTCGACAAATTTTGAAATTTTATCCTCAATTTCTGATGGAGCATACCGAATAGTATCCTCTCCAACAATTTCAGCAATTCCACTTTTTACTTTAGGAGGATACATTCTTTCAAAATCTAATATATCTTCAAGGCTTTTCAACTTTTTTAAATCAGCATTCGGATGGTTTAGTGGTTCAACTATTTTAATTGTTGTTTTTATTAGTGCATTATTTACTTCACTGACTGGAGGATCAGGAGTGACTATCATTGCTTTAGGAGGTGTTTTATACCCAATTTTAATCAACGAGGGATATTCAAAAAAATTTACTTTAGGAGTATTAACTTCTTGTGGATCCTTAGGACTTTTATTTCCGCCAAGTTTACCTTCAATTATTTACTCAATTTCTGCAGGAGTTAATCCAATAAATTTTTTCAAAATTGCTTTTTTACCAGCCATAATACTTGTTTTTTCAGTGATTTTTTATGGATTACTTAAGAAACCTTCAAATTCAACCGTTATAAATTTTAATTATAAAAATTTTATTCAATGTTTAAAAATTGTTAAATGGGAATTGTTAATTCCCGTAATTATTTTAGTAAGTATTTTTAGTGGTTTTTCTACTTTAGTAGAATCTGCTTCCTTGCTAGTACTTTATATTATTTTAATAGAGTTATTTATTTTCAAAGACCTAACAATTATTGATTTAAAAAAAGTAACTGTAGAAGCTTCAAAGCTTATAGGTGGGGTATTAATTATTTTAGGATTTGCCATGGGATTAACAGGCTATCTTGTTGATGCACAAATACCATTAAAAATTTTAAACTTTGCAAAAGATTTTATTGCCTCTCCATTAGTTTTTCTTCTTGCGCTCAATATCTTACTTTTATTAGCTGGTTCTTTGATGGATATTTTTTCAGCAATTCTTGTAATTGTTCCATTGATATTACCTTTAGCAACTTATTATGGAATTGATCCAATTCATCTTGGTATTATTTTTATATCAAATTTAGAATTAGGCTACATTACTCCTCCAGTAGGAATGAATTTATTCCTTTCTTCTTATAGATTTGATAAGTCCCTTTCTGTAGTATTACGTTCTTCATTTCCATTTTTTCTTATAAGACTAATTGGATTACTTTTTATTACTTATATTCCTTTGTTTTTTTATTGATTTAACTTTATTTTTACCATTATGAAAAACACAAAATCTATTCTATCATTAATTTTATTTACTCAGCTTGTTTTCTCTCAAGGAAAGGCTGGTTCTATTTTTCTTTCAATTAATCCTGGCGCTAGAGCAAATGGTATGGGAGAAGCTAACATCGCTATTGCAGATGATTCGTATGCTACATATTACAATCCTGCTGGTTTAATTAATTTATCATCAAGTAATTTTTCATTTATGCATACAAGTTATTTACCAAATCTTGCAGATGATATGTCTTATGATTTTTTATCTTATGGTTCTTCTTTTAGAGAAAATTCATCAATTGGTGGGCATTTTACTTATCTCAATCTTGGAGATCAAATTAGTACAGATACTGATGGCAATACAACTGGTTCATTTTCAAGTTACATGTATGCATTGGGCTTATCATATGCTCAGAAGATCAATGAGTCATCATCTTGGGGTGTAACCGGAAAATATTTCTATCAAGAATTAGCTGTAATCAATAGCTTGGATGCTTCTTCAAGTAATTTTGCTATTGACTTAGGTTATCATGCTAAAGGTTTTATGGAAAATCCTAATTTAAATTTTGGAGCCGTATTAAGTAATATTGGTCCTGGAGTTTCATTTGCTGATGGGGAAGAAGATCCTCTACCAACAAAAATTGGATTAGGTCTTGCAATGATAACATTAGAAAACAAAGGTTTAGTTGCATTTGATTTAAACTATGAACTTAATGATCAAACTATGGTAACTAATTTGGGCCTGGAATACTCTGTGAATGATAATTTTAGGTTGAGAGGAGGATTTATAAGTGATCCTAGTGGTGATTTAAATTATACAACCTTAGGAATGGGAGCAATTCTTGATGGTTTTGGTTTTGATTTAAGTTACATTATTGGCGATGATTTAGATCCTCATTCTGACATGTTAAGATTTTCTCTTAACGGCTACTTCTAATAATTTAATTACATAAAATTTGATGAAATTTATTTACATCTTCGTTTTATTTCTTTTTTCATGTTCAATCACAAATCAATTCAATGATGAAATTCCTTATAAAACAAGATTTGACGATGGATTACGATTCTTTGAAGAAGAAAAATATAATCGAGCTATAGCACAATTTAATATCATTGTAGAAAGAGCGACTCACACCGATTTAGGGGATGATGCTTTATTTTTTCTTGGAGAATCATATTTTTTAAGCAAACAGTATGATTTAGCTTTAATTGAATTTGAAAAGTTAGTTACAAGAATGGGTTTTAGTCCATATTTGGAGAAGTCTAGATGGAGAATATGTGAATCTTTAATGGCTTTATCTCCAAATTATTTTCATGATCAAGATTCTAGTTTAAAGGCTATCATAGAAATTCAGCAATTTTTAGATGATTTCCCAAATTCAGATTATTCTATAGAAGCTGACAAATTAATAAAAGAACTTAGACTTAGACTCGCCCAAAAAAATATGGAATCAGGATATCTTTATGTTAAACTAAAGGCCTATGATTCGGCAATCAAATCATTTGAGGTGGTTGTTAATGATTATTATGACACTCAGTTCATTGAAGATGCACATTCAGAAATTATTAAATCTTTAATTCTTCTTGATAAAATTGATGAGTCTGATAAATATTTTGACCAATTAATGGATAATCCAGCTATTTCTTCAGATATAAAATCAAGGGTAAAAAAGTTAACCGGCAAATCTTAATATGAAAGTTTGTTTATTTGGAGGAACTTTTGACCCGCCTCATATTGGACACCTTTTAATTGCTCAAACAGTAATCGAATCCGAGAATTTTGATAAATTTATCTTTGTACCAGCTAATCTAACCCCTAATAAGGTTAATAAGTTATTTACTGATCCTCTAATTAGAAAAGAAATGCTTGAATTGGCTATCAAAGATAATCCTAACTTTGACCTTTCCGATTATGAAATTAAAAAAGGAGACATCAGCTTCACTGTAGAGACGATAAAGTTTTTCGCAAAGGAAATGGGTTTAGAAAAAGAAAATCTATATTTTTTAATGGGGAGTGACACTCTTCAAGATTTCCATAATTGGGAACAACCTAGAGAAATTATAAAATATTGCAATATTTTAGTTGCAACCAGACCAGGCTTTAGACCGAGTAATATCCCTCAATGGGTTTTAGATTCAGTCCATTTTGCAAATATTCCCCAATTTGAAATTTCTTCAAGCGAAATCAGAAGAAGATGGAAAGACAATAAGACAATTCGTTATATGGTTACTAGAGAAGTTTGGGAGTTTATTAATCAAAATAATTTATATTAGATGCTTGAAAGTATTTTTTATTTAATCCTTGGATCGATTGGACTTTATTACGGCTCTGAATGGTTAGTCGATTCTGCAAAATTAATTGCCAAAAAGTTAAAAGTTTCAGATTTAGTCATTGGTTTAACAATTGTTTCAATTGGAACTTCATTCCCTGAGCTAGTGGTAGGGATAATTTCTTCATTGAACGGACTTCAGGATTTTGTGATTGGAAATGTGCTTGGATCTAATATTGCTAACATAGGATTAGCTTTATCTATACCAGCCGTTTTTATTCCAATCACAATTAAATTTTATGACCTTTTTCCATCTTTGATTTACAATCTGGTTGCTTGTATTCTTCTAATTTCTATAATTGGAGATAGTGTAATTTCAAGGAATGATTCATTTTCTTTGATCGCTTTTTTTGTTCTTTATCTCTTATTTACTTTTTTTAGAGGAAAAAATATAGATTCGGGTCAAGAAAATACTGATTATGAAGTCGATTCTTCAATTTTGATACTTTCTGGTAAATTCTTAGTTGGTTGTATCATCTTGTTCTTTAGTTCAGAAATCTTTGTTAATAAAGGAGCTGCACCGCTAGTTTCTTTATTTGGGTTTTCTGAAAAAGCTGTTGGAATGACTATAGTTGCAATTGGAACATCCTTACCTGAGCTCTTTGTTACTTTTATTGCTCTTTTAAAGAAAGAAACAAATATTTCTGTAGGAAATATTGTTGGCTCGAATGTTTTTAATATTTTATTTGTTCTGGGAATTATTGGATCAATTAATCCTATAAATATCATCAGCGTTAGTTTAGAGATTTATTATGGTTTAGCGCTTCTAGCGCTTCTAGGAATTGCATCTTTCGTTTTAGGGAAAGTAAATAGAATATTAGGTTTAATTCTTTTATTTCTATATATAATTTTCGTCGTTATACAATTTTCATGATTAGTTTTAATAAATCAACATTCCACTATTCCAAAGAATCCGGAATTTATGAAATAGACCTTAAAATTAATTCTAATGAGTTCTGTTTTCTATTAGGACCAACTGGTTCAGGCAAATCTACTTTAATGAAATTACTTTACTTTGATTTATTCCCAACCAATGGAGAAGTAGAAATCTTTGGTTACTCATCTAAGAAAATAAATCAAAAAAATGTTTACAAAATTCGAAGGGACTTAGGCATAATTTTTCAAGATTATAAATTAATTGAACAGAGATCAGTATTTGATAATATTGCTTTACCATTGAGAATAAGTGGAGAAAAAAGAGGAGTAATTAAAGATCTTGTTGATGAAGCGATTGAACTCACGGAATTAAAAGGGTTCGAGAATAAGTTCCCTATGCAATTATCTGGTGGAGAGCAACAAAGAGTGTGCATTGCAAGAGCAATTGTTAAAAGTCCAAAATTAATTCTTGCAGATGAGCCCACTGGAAATTTAGATCCTGCTTCGGGTTATAGGATTTTAAAAATTCTTGAACAAATTCATGCTGAGGGAACAGCAGTTATCATGGCAACACATAATTATAAATTAATTTCTGAGAAAGATTATCGAATAATTGAGCTTAAAAAAGGAAGAGTAGTCAGCTCATGATAGATAAGTTTGCATTTTTATTTTCTGAAGGGATAAAAACTCTAATGAGGAACAGGTTAGCAAACTTTCTTTGTTTGATAACAATTTTTATTAATTTTTCGATCTTGGGTACTTTTTTTGTAATCGGATTTAACACTGATAGTTATATCAATATTTTTAGAACTAAGTATACTTTTGAGGTTTTTTTTGTTCAAGATGTTGATCAAAAGTCAATTGATATAATATCTAACGCTCTAGAACAGTCATCAGTGGTTCAAAAGATTGAGCTTGTTGATAAGGATGATGCAGCAGAGATTTTTAATGAAGAGTTTGGAGAAGATATCGAAAGTTTAATAGGTTATAATCCATTGCCAATATCTTTACGAGTAAATCTTAGTAAAACAAATTTTGATTTAGATCAGGTTCAAGAATTAGTAAATAATATTCAGAAAGAATTATTTGTTGATGAGATAAATTATAGAGGAAGTTTTATAAAAGACATAGAGGATAGAATTAATTTAGTTCTATTCGGCTTTTTATTGTTAGTTATTGGCATTTTATTTATATCTATTCAGATGATATCAAATACTATTCGCTTATCAATTAATTCAAGGAAGAAATTCATAGATATTTTAAAATATAATGGCGCAACACCGCTATTTACCAAGACCCCATTCTATATTGAATCCTTCATATTATCTGTTTGCGGTTCAGCATTTGCATTTTTATTTGTTAGTTTGGTTTTTAATTTTATTAATTCTTATCTAATGTTAAGTATAAGAATTGATAATAATTTGTGGATTTGGATGGTATCTTTTTCTATAATCGTTGGGTTTTATGCATCATCGAAATCTTTGAAAAAATTTTTAAATTAGCAGATGACAAAAAATATTATAAAAGATAAAAAAGTTTCTAAAAAAAATTCAAATTCTGAAAAGAGTAATCAAAATAATCAGATCAAAGAACTTGAAGACAAGTATCTCAGATTAAAAGCTGAATTTGACAACTTTAGGAAAAGAAAAGAACAAGAAGTAATTTCCCTTCTTCAATATGAAGGCAAACATCTAATTAAGGATTTTATTACTATTTTTGATAATCTGAATAGAGGAATTGATTCTTATAAAGATGAAAGTATTAAAAGTGCTCTAGTTTTAATAAGAGATGAATTTTCAAGAAAACTTGGGTTAAATGAAGTAACTTCTTTTGGTCAAATTGGCGACCAATTTGATCCTAATCTTCATGAAGCTTTAACAGTTACAAATGAAAAATCTAAATCAGACGATGAAATAGTTGAAGTTTTTGAGTGTGGTTTTAAGTATAAAGATTTAATAATAAGACATGCTAAAGTTGTTGTAAACAAAAAATGAAAGATTTTTACGATATTTTAGGCGTTTCAAAAAGTTCTTCTGAAGCTGAAATAAAAAAAGCTTATCGCAAAATTGCTATGAAATACCATCCAGACCGCAATCCTGATAATAAGGAAGCAGAATCGAAGTTTAAAGAAGCAGCCGAAGCCTACTCAGTTTTAAGTGATAGATCCAAAAGACAAAAATACGATCAATTTGGGCATTCAGCTTTCAATGGAATGGGAGGTCAATCTGGCTTTAACTCTATGAATATGGAAGATATCTTTAGTCAGTTTGGAGATATTTTTGGTGGTTCAAATCCGTTTGAATCTTTTTTCGGAGGAGGTAGATCTAGAACCCAAAGCAGAAGAGGGGGAGACATTAAAGTGAAGATTGAAGTTTCTTTCGAGGAAATAGCTGAGGGTGGAGAAAAAAAAATAAAACTCAGACGATTAAAGGTTTCTCCTCAAGCTTCATTTAATACTTGCAGTATGTGCGGAGGAAACGGTCAAGTTACTCGTGTTACTAATTCTTTCCTTGGCCAGATGAGATCCACTTCAATTTGTCCTCAATGTAATGGATACGGAAAACAAATTAAAAATAGTCCTTCAGGGTCTGATAAGAATGGTATGATAAAAGTTGAAGAAACTTTAAAAATTAGAATTCCTGTAGGAGTAGAAAATGGGAACTATATGACTTTAGATGGTCAGGGGCATGAGGATATTAATGGGAATGCGGGAGATTTATACGTATTTTTTGAAGAAAAAGAACATACCTATTTTTCTCGATATGGTAATGACTTGTTGATAAAAGTAATTATTGGATATTCTCAAGCGATATTTGGTGACAAGATAACTGTTCCAACCATTAGCGGTCAAGCCTCTCTTTCTATTCCAGCTGGAATTCAGCCTGGTCAAATCTTGAGACTTAGAGGGAAAGGGTTTCCAAAAATTGGATCTTCTCAGAAAGGAGATCAATTAATTAAAGTACAAATAGATATCCCAAAAAATTTATCTAAAGATGAAAAGGAACTTCTTCAAACCTATTATAAAATAGAGCAGAAAAAAGAAATTAAGTTTGAAAGATTTGAGGATTAAATTAGTTGCTATCTTAATGTTTTATTGTAAATTTGGTTTGTTAAGTTATAAAAATGAGTAAAAATAATCAGAAAACATTTAACGATTACATTGAAGTAATCATCTTTGTTATTTTATTATTGACTCTTCTAGTCATTTTCATCCCAAATAAAATCTGGAAAGAAGAAGATTATTATACCAATGAAAGTAGATATAGAATGCAAACTATCTACAATGTTGAAAATTTTTATAATATTCTTGTCGGTAATTATGAAGAAGATGGATCTAAAGCTATTAGCTTAGTTAATGCCGTTCGAGATTCATTGACTTCTGACTCTTTGTTTCTAGGGGATCAATCAATTTCAGTTAACGGAGAAGAATTTTTAGTCAATGTTCCGAGAGGTTTTGATGTTGAATACGATACTACTTTTGGATTAAGAAGAGTATTAAAAGAAACTATTATTGATACAACAGTAACCATTTTAATGAAATCAGAAGAATCTGGTTTAAATGACACAGTTTATGTTCAAAAGAAAAATTTATTTGATATTCAAAGAGATCCTTTGTTTGTGAGTATTGTTGACGAAAATACTTTTGAAAGAGTAGAGACAATTTCTTATTTTGATCGAAGATTTAGAAAAGAAACTAGTCCACTTAATTTTGAATTTTTGCCAGATGCAACCCAACTATATTGTCCTTTAACTGGTGATCCCTATACAATCCAAATTAGTGAGGATGGAAATTCTGTAAGAATTTCTAGTCCTATAAGATCTTATAAAGATAGAAGATTTGGATTCTTTTCTCTCAAATCTGGTAGCCATGGTTATATAATTGACGGATCTAGAAGTTGGGATAATTAGTTGATTGTTATACTTTTTTCTAGATAATTCTTCATTACATCTTTTTTCGAGAAATTCATCTAAATCTATTTCATCAATAGCTAAACTAAATCTATCAAAGAAACTTTTACTGAATATCAATGATTCTAAGGTAATAAACGAAATAATTTCTGATGCGTTTAAGCGTGCTAGTGATAAAATTGATTTAAAAGAGAATAGCAAGGCAGTTATAATTTTATCGGATGATATTCTTTTTCATTCAGTTCATCGTTTGAACACAAGCAATCCTAGCAAAATCTCGATGAAAATTGAAGAAGAACTAGAGCTAAAATGGGGTAAGCTCTACAATAACTTATTTACAGTCTACGAAACAGCAAAAACTTCCCAATCTATCATTCACTCTGTATCTATAAACCATTTTTTAAGAGAAAAAATTAAACTAAATCTTAATAATAATGGATTAAGCCTAAAACAACTTATCCCAATATCTTCTATCATTATAGACGAAATCAATACAAGTCAAATTGCATATATTAATCGAAATCAAAATGAGATAGATATTATTTTTAGCAATCGTTCAGGATTCCATTATAATAGATTGAAGAAAGAAAAATCTGGTTTTAAAAGATTGAGAAATGTTGGATCGACATTAATAGACATTAAAAGTGATGACTTTATGAAATCTTCAACAAAATTTATTGAATTTAATTACACAAAGATTGTTGAGATTCTCAATAGCAAAGAATTAGAGAGTTTTCCGATCTTAGATTTTTCAAATCCAAAAGGATTACAGTTTTTGAAGGGTCAAATGTATAAAAAGTCAGTTGAATATAATCCTTCAAAAAACAAGAGTTTCTATTTGTCAATCTTGAAAAATTTTATTGCATTCATGGTGACCATTTTGTTTTTATCTCAACTTTTAAAAACAATCAATGATAGAGGATTTGATCTTGACGAATTTAGCTCAGAGGAAATAACTTCTTTTCAAGAGGTAGATATAGTTAATTCGACAGAAAATTTTGCATTGATTTCCTCTCAAGATATAATCTATAATTTTCAAAGAATGATAACAATTGAACAGATTGATTCAATTCAAATTATGAATTCTGAGCTATTGGTCAATAATATTTCTCAAGATTTTTTGTCTTCAAATACGGGCATGATAAATGAAATTAATAAAATCGATCTGAGTAATTTGCTTCAAAGTGCCATTGAAATTGATTCCTCAGTTAATTTCAAAGTAATGGAAAGTACATTTTTATCTAATCCTTCAAGAAATATTATTTTAAGATTTTCTTCAATAGAGGATGGTTATATTTTTCTTGAAAATATTAAATTTTTTAGCAACATATTCTTGAAAAAGATAACCTTTAATAAGGATGATTTACTTCATATATATTTAATTTATATTGTTGAATGAAAATTTTAAGTGGATCGCTAAAAAATAGAGTAATTAATATTTCAAAAAATCAGATATTTAGGCCGACAAAATCTATTGTTAGAAAAAGTCTATTTGATTCTTTGGGGGCAATAGAAAATAAATCATTTCTTGATTTATTTTCTGGTTCTGGAATAAATAGTTTTGAAGCTTTTAGTAGAGGGTCAAAAAATGTTTCGCTCGTTGAAATCGATCGAAATGCAATTAAAAATTTAAAAAAAAATATTCTTCATCTTGATTCAGATAGTATTCAAATTTATCAAAGAGACGTTTTTAGGTTTTTAAATCGATGTGATGATTATGATATTATTTTTGCTGATCCTCCATACGGAATATATGATTTAAATAAACTTGTAACTTTATCATTGAAGAAATTAAATCCTGGAGGAGTTTTTATATTGGAGTGTTCTGAAAATGAATCGCTTGAAGGATACAATAAAATTGCTAAATTCGGTGGCAGTAAATTGCTATATTGGAACAAATGAAAAAAATTGTATATCCAGGAACTTTTGATCCCATTCACTACGGTCATATTGATATTACTAAACGTGCATCAAGGCTTTTTGATGAGGTATTAATCTGCGTTTCCGATAATCTTCACAAAAATCCACTTTTTTCTCATGAAGAAAGAGCTGAAATGATTCAAGAATGTTTTATTGACATTCCAAATGTTAAGGTTTTTTCGAATCCAAAAAATCTTGTTGTGAAATTTGCACAGGATCAAGGTGCAATTGCAATTATTAGAGGATTAAGACATGTATCAGACTTTGAACTTGAATTTCAGATGGCAAATGTTAATCACGAAATAAATAGTGATATCTCAACCATTCTGATGGTATCCAAAGAGAAGTTTCTTCATTTAAATTCTACAATTATAAGAGAATTAGCTCAATATAGTACTAATTTAGAAAAATATGTACCCTCTCATGTTGCTGATAGATTAATGAAAAAAGTAGGACAAAAAAATGGCTGATAAAATTACTATCCAAAATGGAAAATTAAACGTTTCTAATAACCCAATCATACCTTTTATCGAGGGAGATGGAATTGGTCCAGATATTTGGAAAGCATCTCAAAGAGTAATCGATGCAGCTGTTAACAAAGCTTATAATGGCGAGAAATCAATTGAATGGCTTGAAATTTATTGTGGTGAAAAGGCATTTAACTTAACAGGAGAATGGTTACCTGTAGAATCATTAGAAATTCTTAGAAGCCACTTAGTTGGCATTAAAGGGCCATTAACTACCCCAATCGGTGGCGGTATTCGTTCTTTAAATGTAGCGTTAAGAAAAGAATTAGACTTGTATGCATGTGTTAGACCAGTAAGGTGGTTCAAAGGGGCTCCTGCTGCGATTTTAGACCCCAATAGAGTAGATTTTGTGCTTTTTAGAGAAAATACTGAGGATGTTTATGCTGGAATCGAATTTGAAAATGGTTCCGAAGGAGCTAAGGCTGTGATTGATTTAATGGGGCAGTTAGGACAAAAACAGAAAATTCGTTTCCCGGAGACCAGTTCAATAGGTATTAAACCCATTTCTAAAGAAGGTTCGATTCGTTTGTTTGATGCAGCGATTCAATATGCAATTGACCAGAATCGTAAATCTGTTACAATAGTTCATAAAGGAAACATAATGAAGTTCACTGAAGGGTACTTCAAAAAATGGACATATGAACATGCAGAAAATAACTACTCTGATAAAGTATTTACTTGGGCACAATATGATAGAATTGCGGAGAAAGATGGAGATAAGGTAGCTCGAAACGCCCAAAGAGATGCAATTGCAAACGGAAAGATTATTATTAAAGATGTTATAGCCGATGCTTTTTTACAACAAATTCTCCTTCGACCCGATGAATATGATGTCATTGCTACAATGAATTTGAATGGAGACTATATATCTGACTCAGCTGCAGCAGCAGTTGGAGGAATCGGAATTGCTCCTGGGGCGAATATCAACTATAAGTCTGGTCACGCTATTTTTGAAGCTACTCATGGAACTGCTCCAAAATATGCAAACTTAGATAAGGTCAACCCATCATCAGTGATTCTTTCTGGAGCAATGATGTTAAGATATCTTGGTTGGAATCATGCTGCAGATCTGATAGAAAATGGTTTAGAAAAAGCAATTTCCAATAAAAGAGTTACTTATGATTTTCATCGTCTTATGGAGGGAGCAACTCTTCTCAAATGTTCTGAGTTTGGTGACGAAATCATCAACAATTTCTAAATTTAGATACCATGTTTATTGATTATGCAAAAATTACCCTTCAAGCAGGTAATGGAGGGAAAGGGGCGATTACTTTTCATCGTGAAAAATATATAGATAAAGGTGGACCGGATGGAGGAGACGGCGGCAAGGGAGGAGATATCATCCTTAAAACCAATTCCAACCTTCATACATTGCAAGACATTCGCTACAAAAAAGTGTATAAGGCTCAAAATGGGCTTAATGGTGGATCAAATAAACGTACAGGTAAATCCGGGCAAAATTTAATCATTGAAGTTCCTTGTGGTACGCTCATCAAAGATATCGAATCAAAAATTGTTCTTGCAGATTTAGTCTCAGACAATCAAGAAGTTGTCCTCTGTAAAGGTGGAATAGGTGGAAAAGGTAATTTTCATTTCAAGTCATCAACTCACCAAACTCCAAGATTTGCTCAAGAGGGTATTTTAGGAGAAAAATTATTGGTAGAACTAGAATTAAAGATCTTAGCAGATGTAGGGTTAGTTGGATTTCCAAATGCAGGAAAAAGTACTTTATTGTCTGTGATGACTACCGCCAAACCTAAAATTGCAGATTACCCGTTTACAACTTTAGAACCGCATCTTGGAATTGTTAAATACAATGACTATCAATCTTTTGTTATTGCAGATATTCCTGGATTGATTGAAGGAGCAAGTCAAGGGAAGGGATTAGGTCATCAATTTTTAAGACATATAGAAAGGAATAAAATTTTACTATTTTTAATTGATTGCAATGATAAATCACCTGAAAAAACTTACAACCAACTTTTAAAAGAGTTGGGAAATTTTAATAAGGAGCTCACTGTAAAACCGCGTCTAATTCTTAAAACAAAAATGGATAGTTTTTCTCAGGAGAAAGATGCTAAATCTTGGAATAAGATTAAAGAAGATATTTGGCCTATTTCATCTGTAAGTGGAGAGGGTTTAAATATTTTGAAAGATAAAATTATATCTTTTTTATCGAGTTCCTAAAAAACTGAATGTAAATTTTCACTTTCTTGGAGAGGTGGCTGAGCGGCTGAAAGCGGCACCCTGCTAAGGTGTTATACTCGTAAGGGTATCGAGGGTTCGAATCCCTCCCTCTCCGCACAATTTTATGAGCTTGAAATTGTAATAATAGAATTACTGATAGAAGCAGTATATTTAGTCAAAGGACTGGTTGCAGGACCTGATATTACATTCCCATTAAAATCAAATATTGAATTATGACTAGGGCACAATAAGTTATTAGCGCTAACATTGACGGTATTACTTTGATGAGTACATCTTCTTGATAACGCAGTAATCGTAGATGGTCC
>sequence02
AGAACAAATTGATTTAGCTATTAATAGCTTTATAGAATGTTCTCAAGAATTAAATATTATTTAAAAAGTTAGTAAATTTTTTCTTTATATTGTTAAATTCTGCTCACAATTATGAATAGCACTATTAAATCAAGATTTTTACTAATACTATTTGTTTTTGGATTGGCGATTTATTCACTAATTCCATCAATTAGATTTTTAAATCTTACAGATGATAAAATTTCTCAGATGTCATCAGAAGAGTTGGACAATTTATCTTCAAAAGCTCTTAAACTCGGTCTTGATCTCAAGGGAGGTATTCACATTGTTCTTGAGGTGGATCTACCTCAGCTTATCTCTAATCTTGCTAGAAATAAAGACTCTAAATTTGAAACATTTATTACTGAACTTGATAAAAATTATTCAATTCAAGATATTGATTTCTTTGATTTATTTGAAGAACAAGTTCAGAATAGTGATTTAAAACTACAGAGGTATTTTTCTTCTTTAGGTCGCACTAATGATGAGATAATTAGTCAATTATCTGTAGAATCTACAGATGCACTTAATCGAATTGTTCAGATTATTCAAAATAGAATCGATCAGTTTGGTGTGTCAGAACCCAGTATCCAAAAACAGGGGAATAGTCGAGTAGTCATTGAGTTAGCTGGAATTGATAACGCTGAAAGAGCCAGAGATTTGCTTCAAAGTACAGCTCTATTAGAACTGATGATTGTAAAAGATGTTGAAAATACTAATTCTCTTATAAAGCAAATTGATTTAACTATAGATTCTAAAAATTCAGCTTCTACTAATAATAACGTTGATGGTTTATTTTCTGATAAGGAGAATTTATCTTCAATTCTATCTACAATAGGATCTAATTTAGCAATTAAAATATCTGAACTTGATAAGCTTAATAATATTCTGAACGAAGAAGATGTAAAACAAATCCTCAGAGCTACAAATAGTACACTTCTTTTAAGTAATAGCTCTATTACTCTCTCGGATGAATTTGACGGTGAAGAATATCTACTAGTCTATCATCTATACAATAATGCAGAACTATCCGGTGGAGTAATTGAAGACGCTCAAATGAAATTGAGTCAATCTGGCGTGACAGCAGGTCAAGCGACTGTTCATATTGATATGAATGGTGACGGATCTAGAGAATGGGCCAGAATTACAGGAGCTAATATTAATAAAAGAATTGCGATTGTATTAGATAAAAAAGTTCACATGGCTCCGGTAATTAGAAGTCAGATTTATGGCGGACAAACCGTCATTGAAGGAATGGGTTCAATTCAAGAAGCTGAAGATATTGCTATAGTTTTAAGAGCTGGTGCTTTGCCTGTTCCTGTTTCTATCGCTGAAGAAAGAACAGTGGGTGCTTCTTTAGGCGCTGACTCTGTTGAACAAGGAAGGCTTTCAATCGCCTTTGGACTTATTTTAGTAGTTGTGTTTATGATTGCTTATTATAGATTATCGGGTGTCATTGCGAGTTTCTCTGTTCTTGGAACCTTAACTCTCTTGCTTGGAGTGCTAGCAACCCTTGGAGCTACCTTAACATTGCCAGGTATTGCTGGGCTTATTTTAACAGTTGGAATGTCAATAGATGCTAATGTAATTATTTTTGAAAGAATTAAAGAAGAAATTAGAATTGGAAAATCAGTTAAATCTGCAATTGATTCTGGCTATGCTAAAGCTTTATCTACAATTGTTGATGCAAACATTACAACTGGAATTGCTGCAGCAATTTTATACCAATACGGTACTGGGCCAATAAGAGGTTTTGCAACTGTCTTATTTTGGGGAATTATTGTAAGCATGTTTACATCAATTATTGTAAGCAGGTTCATTTTTGATTTTATAATTTCAAGAAAAAATATTCGTGAATTGAGCATATGATAAACTTATTTAAAGATTCAAACTATAATTTTATGAACCTCAAACGTTTAGGGTTTATCTTCTCTGGTTTGTTAGTCATTTTATCAATTTTTAAGCTATTCTCTGGTATAAAACTTGGAATAGACTTTAAAGGTGGATCATTAATTGGCCTTCATTTTAATGAAGCAATTTCAATTGAAGAAGTTCGTGAGTCTTTGAAAAATCTTTCTTTTGAAGGAAATAATTTTGATCTAAGTAACGAAGAAATTAAATACTTTGGGAATGAAAATGATATTGTAATCAAAATTAAAAATTTTGAGAATCAACCTGATAATTTCCCCCAGTTAATAATTAACTCACTTTATTTAACGTTTGAGAATAAGGTCCCATCGAAAAATGAATTTGTTTTATCATTAGGGAGCGTTAGTCCAAAGGTTGGAAGTGAACTTTCAGGCCAAGCATTTTGGTCAATTATTTCTGCTCTTGCTTTGATACTTTTTTATGTTTCGATCCGATTTGAATTTAAATTTGCGATAGCTGCAATTATTGCGCTCGTTCATGATATAATAATAACTCTCGGAATTTTTGGATTCTCTAATTATGAAATCACCTTAAGCACTATTGCCGCTTTTTTAACAATAGTTGGCTACTCTTTGAATGATACAATTGTTATACTTGATAGAATAAGAGAAAATATGAAATCTTCCGGAACAGTCATGTTTGATTCAACTATAAATAAAAGTATCAATCAATCATTAAGTAGAACTTTAATAACATCGCTAACTACTTTATTAGTTATTATTATTCTCTTAGTCTTTGGTGGTGAAATAATTAGACCTTTTGCTTTTACATTATTGGTAGGGGTGATTATTGGTACTTATTCTAGTATTTTTATTGCCAGCTCTGCAATCTCCTCTTTTAATAATTCTTCAAAATAATGGAAAGAAAAATCCTTTGGCCTTTTGTAGCCCTTTGTCTGATTTGGGGTTCAACTTGGTATTTTATAAAAGTTTCACTTAATGCAGGTGTACCTCCTTTTTTTGGAGTAGGATTAAGATTTTTATTTTCTGGTTTCTTATTCTTAATCTACCTTTACTACAAAAAATTAAGCATACCGTTCAATAAAGAAGCTATAATGCTTTATACCTCTTTTGGTATTCTTAATTTTAGTCTTTCGTATGGAATTACTTACTGGGCCACCCAATATATTTATTCCAGTATTTCTTCTATAATTTGGGGGCTTTTCCCTCTTTTTACTAGTTTAATGGCTCACTTTATGATTAAGGATCAAGCTGAAGAAAGATTAAATAAAAATAAAGTTTTGGCATTATTAGCTGGTTTTTTAGGAGTTATTGTCATGTCTTCTGGTGAAGATATAGGAATCTCATCTGACACTTTTATCCCGATCGTTGTTTTGATATTGGTAATCATCATAGCAGCTTATCCAAGTGTTTTATATAAAAAATATAATAAAGTTGTTGGACCTTATCAGATGAACGCTGTTTGCCAGTTACTTACTGGAATATTAATGTTTAGTCTTTCCTTTATTCTAAAAGAAGATACTTCTCTAATCATTTGGAACAATGAGTTGATTTATGCAACTCTTTACCTAATAATTTTAGGGGGATTTATTTCTTGGGCTATTTACTTTTGGCTTTACCAATATCTTACAGTAACACAAGTAACCTATGTTGCTATTTTTCCTCCAATTGTTGCAATAGTACTAGGTTGGATTTTTCTTGAAGAGATCTTAAGTGTCAACGAGATTTTAGGAGCAATCTTTATATTAGGAAGTTCCATACTTATTTATAGGAAATAGATTAGAAATTTTTATTAAATTGAATTAATGGGAAAGATTAAAACAATTTTAGCAACTGGTACTGTTACAGTCATACCTCTGGCTTTAACTGTATATGTACTTCAATTTTTCTTCAAAATTGCCATTTCATTTGGAGGTGCTGTTTCTGAACCATTAGAGCAATTTGTTGATGCAAACTTTCCTGGATTTCAACTTCTGACTTCTATAATAGGAATAGTGATTGTACTTATTTCTTTGATTATTATTGGTTTCTTTGCTAGAAATGTATTTTTTTCAAGAATAGTCAATTGGATGGAGTCTTTTTTTAAAAAAATCCCATTAATTGGAATTATTTATTCTACTACAAGACAAATTATGGAATCCATATCTGGTGGATCAAATAAAGATTCATTTAAGAAGGTAATTTATATACAATACCCTAGAAAAGGTGTGTGGACATTAGGATTTGTCACAAGTGAATCCACAAATAAACAGGGTGAAAGCTTCTATCATCTTTTCATACCTACAACTCCAAATCCAACTTCTGGATTCTTTTTAATTGCTCCCAAAGAAGATGTTACTCAAAGTGATATTTCTGTTGAAGAAGGCTTCAGAATGATTGTCTCCAGTGGAATGGTTGGAAGCAATCAAAATCAAATAGTAAAAGATTAGAATATAAAAAGGGAAGCAATGCTTCCCTTTTTATATTATTAATGATCAAAAGATTTTAGTTAAACTTAACCTCTACCTCTTGCCATTGGTGCTCTTGAAACGTCTCCATCTTTATCAACAAAATAAAGATATCCTTTTTCACGTTTTACACCGGCGTCAGCTACTTTAGTTGCATTACCGCCGCCTTTACCGCCACGAGACATACCTGAACGCCAAACATTACCGTCTTTTCCTAGGTAATAAAGGTATCCACTTTCTTTTGAAACACCTGTACGTGCTACTTTTTCAGCCATTTTTTTACTCCTTAAAGATTTGTTAAGAATGGTTTTTTAAAAACATTTATATTCTAATGTCATCTTTTTTATAATGCAAGTTTTTTCTCGTCGAGCTCTCGTCAATAAAAAAATACAAAAATGCTTTAAATTTTTTATTAATTCTTTAAATTCATCGGATGCCCCGGTAGCTCAGCAGGATAGAGCAACTGCCTTCTAAGCAGTAGGTCACACGTTCGAATCGTGTCCGGGGTACAACAGCAATATTGATTTAATTTTCAAATTGTGGAAGTTTATAAGCAGCAACTCTTTTATCATCATCAATAGCATATAAATACCATTCTCCATGCATAAAAGCTGTCGCAATCCCATCGGTATATCTAACATCTTCTAAAAATAACGTTTTATAAAAACTAAGATTTGATCTACTAAATAAGTGGAATTTATTATCTTCTTTGCTTTGTTCGGTAAAGATGATATATCCTTCTTTAATACCTGTCAATGCAATTCCTTCAGCGTCATTTTTAAAAGGGAAATTGCTAATTTCAGACATTATCTCCTCTCCTGATTCTAAGTCTAATACGATAATCGATGAACCTTTACTTTCGCCTCTGGTATTTTCTTCTGCAACAAAAAGTCGATTAAAATAAGAATCAGCTACTATAGACTCAACTTCATAAAGACCAGTGTTTCCAAAAATACGACCTTCAGAAATTACAATTTCATTTTCATCACTTATTATGATATCCCAGAAAATGATACGCTCTGAAGAAAGGACACCTTCATTGAAATTATCAGTCACAAAAACTCTGTGTTTATTTTTTTCAATTTGGTAACTAGTTATACCATAAGGAGATTTTAAGTCACCTTCCCCAAATCGTCCAATGTAATTGAAAGAACTATCTAAAACTAGAACCTGATGATTGTCACGCTCTGTTATAAGAATATATTCATCATCTATTATATTTACTCCATTTGGAAATGCGTTTGGTCTTTCAATAGAGTGCTTCAATTCTCCCTTCATTGCACTATAACTTAAAATTTTGCCTTTTTTATCTGTAACAACGATTTGATGTTTGCGATTCAAAAATCCAATACTATCCAATTCAGTTTCAGGAATGATTTCCGAAAAAAACATTGGAGAATCTAAAGTTAAATTTGAAGATAGGTTTTTTGAAGAACAGGAGAGGAATAGAAAAAAAGAAAAAAGTATAATTTTTTTAATCATTCAAAATATCTATCAATTCAATTTCAAAGATTAAAGTAGACGCTGGTGGAATAACATAAGTTCCAAGTTCTTTACCAGGAATGCCCTTATCACCATACGCTAAATTATATGGAATGAAAACTTCCCACTTTGATCCAACTTTCATTGTAAGAATTGCTTGTGAGAATCCTGGAATAACTTTATCAAGATTGAACTGTGAAGGTTTGTCATTTTTCAAAGACGAATCAAAAATAGTGCCATCAATTAAGCGACCAGTATAATGGACTGATACTAAAGAATTATAATCTGGTAAAGGTCCATCCCCTTCTTTTAAAACTCTATATTGAAGTCCTGATCTTTTACGTACCAGAACACCATCATTGTATTTATTTTTTTCCATAAACTCTTGACCAGCAATTTTATTCTTTCTCGCAAGTTCACGCATTTCCTCAGTAGCCACTTGGTAGGAGTCTACTTCTTTGATAGCTTGCTGTCTATTATAATCACTTAAGATAGAATTTCTTCTTCCGATATCAATTCTTGCAGGAGTTTGAGATAGAAAATCATCCATTCCTAATTTGACTTTATCAGTATTGACTTCGGGAAAATTTAAATTTTGTGCAATTCGAATCCCCAAAGAATAACTTAGAGAATCTTCAATAGTAACTAAATCTTCATTTTTATCTTGAGAAAGAACTGGTGCATCATGTGAAGAATTACATGATAGAATAATGAATACTAGTATTGATAATATATTTCGTTGTTTTTGCATGTTGAATTCTAAAAGCTTATTCATTAATTGTAAAGAATATTCTACCTTCCATCATTATAACCTTCATACTGATCCATCATATTGTTCAATCCATATAAATTACTTACTCTTAAAAGAATCGAACTAGGAAGAATTGCTCTAAGAAGTGTTGCTTGATTCATAATCCAAGGAATTTTTGGAGAATGGAATCCATATCGAATTGCGCGATTAATTATAACCTTTGCTACAGTATATGGAGACTTTATTCCTGGAGATAAAAGATTACCTAAAAAATTGAGTTTTGTTCCTGCAAAGAGACCTTTAACTAAAAAATTAGGGTGAATAGAAGAAAATTTTACTCCTTTTCTATTCATTTTATACGCCTCCAAACGTAAAGATTCTGTGAGTCCAGCTACCGCCCATTTTGTCGCTGCATAAACAGCTAGTTTAGGAGCTCCAATCAATGAAGATGCTGACGAAATATTAATTATATGTCCAAAATTTCTTTCAAGCATCTCTGGCATAAATGCTCTAATTGTGTAGATCATTGATGTAAAGTTTATTTGAATCATTTTTTCTAATTCTTCATCACTTCTATCTAACATATAACCAGTATAAACTGTACCTGCATTATTGATTAGAATATCAACAGTTCCAATAGCTTCATTCACTTTTTTAGCAGTTTGATATACTTCATTTGAATTTGATACATCACATTGAAAAGTTGAAAAATTTTTAAATCCTAATTCGTTGAGTTTGATGGAAGCTTTTTGAAGATTTTCCAAGTCAATATCCCACATTATAACATGAGCACCTTTTTTTAAAAGAAGATGAGAAGTAGCAAAACCAATTCCAATTGCTGCTCCTGTCACTAATACTTTTCTATCTTTAAGATTCATTTAAAAATTTAACAAATTTAAAATAATTAGTTACCGATAAAAAAGAGGGTGAATAAAAAATTATTCACCCTCATATTATTTTGATAGATTTGTTTTAAATGCGATTAGAAAGAAATACGAACTCCTATTTGCATTCTCCAACGAGAAAACTCGCTAAAATCATCAACAAATGTTTTTTCGACTCCGTTAAAGCTGAATACTGGCTCGCCAGCTGCGTTCCAACTGTCTAGAGTTAAAGGAGAAAGAGCTAAAGGATTAGCAATTTTTCTTACTCCCCATTCAGAGTTAAGTAGATTAGCAAGATTCATTATATCAAAACTTACTTCAACTTTTCTTTCTGAAAGCAAAAATTCATTGTTTATTTTTAAATCTATATTATTAAACCATGGATTGAGAAGACCATTTCTTTTAGCAATTTTACCTCTATTTTCTGAAAGATATGGATCTTGTTCAATAAAGGCATTTAGTGCAGACCATTGTGTCGGATCAGTAAGATTAATATCTCCTTGATCTCTTGGAATATAAATCAAGTCATTTCCTCCAAATCCGTCACCATTTACATCCCCAGAATAGATATGAGAATATCTATTTCCACCAGAATAAATAAATGGATTACCTTCTCCAATTTCAAGAAATAATCCTAAAGTTGTAGCTCTAGAATCGTTCCATTCATGTCGATATGTAGCAGAACCAATTATACGGTGCTTCATACCAAACTGAGAAGGAGCTAAACCTGGTTTGTTTGGGTCTCCTTGGACTGGTTGACTTGAATATAACACTGATGCAATCTCTGTTGATTGAAGATTGTTTTCTGCATTTAAATATGTGTATGAAGTACTCCATTTCACCCCTTTATAATCTCCTCTTAATTGAGCAGAGAGAGTCAAACTAGAACCTTCATCTATATTATCAATAACATAAACACCCTCACCTGATCCAGGATAAAAAGAATTTAATTCAGCACTTCCAACGCCACCATAATATGGTCTACCATCAGATAGCTGACGAACCGGAGTAACTAAATCAGCATTTCTCATATAAATTGCATTCTTGTCTGTGCTGTGAATTAATTCTAATGTTCCCAATAAACCGTTTGATAATTTCTTATCAATGGCAAGATTCAAAGTCTGAACTTGAGGCCACTTAAAATCTGAAACCATAGCATTTACATCATAAGTTTGTTGCAAGATAGAGATTTCACCTTCATAAACCTTTCTTCCGCTACCATCATCAGTTACATGGTCAGGATTCCAAGTTGCATCTCCAACAGCATACAAATTGGGGTTATTGCCTGGATTAGAGAAAATATTCCCTATCCAAACGAAAGGAAGTCTGCCAGTAAAAACCCCAAAACCTCCGCGAAGTTGCATTGATCTATCATCGTTTGAATAGTTAAATCCTACTCGAGGAGAATAGAGAGCTTTTGCATCAGGTAATTTATCCTGTTCTAATACTTCTGGACGATCATTCTCGTCCAACAAAGTAAGACCTTCAAGGAAGGGGTTGTCGACTGGTTTATTATTATATTTAGGAATATCAACACGTACTCCTGCAGTTACATTCAAATTAGAATTAACTGCAAATTTGTCTTGGATATAATAAGACATTTGAGAAACATCTATTTTCTCTCCCTTATATGGACCACTTCCTACCATTCCATAAAAATCGGATTGATTTTCATTGTTTGGACTGGTTGAGTCTAGAAAAGCATCAATTGATGAAAAGGTTGTTCCACCTAAAAATTGAGCCCAAGACGCATCCAAGAAGAAAACACCATTTCTGAAAATATTAAATGAGTTAAAGAATTTAAAATTTTCATAATTAAATCCAGCAGTAATGGCATGTTGTCCAGAATAATAGGTTAAGCTATTTGAAACCTGTAGAACGTCCTGATCCAAAATATTATGAATTGAAAAAGGTTCGTGTCCAGCGGTAGTATATGTAACCCCCGCTTCTCCGATTTCAATTGTAGGGAATGGTTCACTAAAAGGCGCACGATAATCTCTAAAAATATTTTTACTTATAAAGAATCGATTAGCCATATTGGAACCAATCATGCTATTTGTTTCTAAGGCATATGAAGTCAGTTCATTATTGATTTCATACCCTGAATTTCTAAATGGTAAACTGGATGCATTAGGACCTCTACCAGTATTATTATAACTTAACACAAATGGGTGAGGATGTAAATCGCGCGAGGCATCCAGAGTATTCATTCTAAATGACAAGTTATTTTTCTCATCAATATTCCAATCAAGCTTTGCAAGCATTTTAACATTATCAGTATTATGATTATAATCTTGATATGGACCTGTATCATAATTGTATTCGCTTTTCAATCTTGCAGAGATAGTATCCATTACTGAACTTGAAACTCTTGAAGTTCCATCTGCCCTATAGTTTGAACCCGGATCAGCGCGATGCTCATTTTCAAAATTAACAAAAAAGAAAAGTTTATTTTTAATGATAGGACCACTTACTGATACACCTGATTGACTATATTGTAAAGATGGGCTTGAGAATACTTTTTGAGAACCAACCTTATTTCCTATTAGGTTTTCATTTCTCGTGTAAGTATATATTGATGATTTAAATTCATTAGTACCACTTTTTGTAACAGTATTAATTCCAGCACCAGTAAATCCTCCTTCACGAACATCAAAAGGAGCTATTGATACCTGAACTTGTTCTACAGCATCAAGAGATACTGGCTCTGAATTAGTTTGACCTCCTGGGGCTGGATCATCAAGACCGAACGGATTATTAAAATAAGATCCATCTAGAGAAATGCTATTATATAACCAGTTTCTTCCTCCAAAACTGAAATTACCATCACTTCTAGGGTCTAGACGAGTAAGGTCGCGAGTACTTCTTTTAATTGAAGGCAGAACTCCAACTTGATCAGAGCCAACATAAGTAGCAGCACCCGTTCTATTTCCATTCATCACATCATCGATTTCTCCTATCACATCTACTCCACTTAAAGAAATAGAGTCTACTTGAAGAGAGAAATTCAACATTGAAGATGAACCGAGACTTAATGTTAAATTTGATTCTGTCTCATTTTGATAGCCTATATAAGAAACAGTCACTGAATATGGTCCTCCAACCTTCATATTGGGGATATTATAGTATCCACCATCTCTTGAAATTGCACCATAAGTAGTTCCTGTAGGCTCATGAACAGCAATGATATTTGCTCCTTCTAAAGCTGAATTAGAACTATCAGATATATTTCCCGAAAGCTCTGCGGTAGTGATACCTTGAGCGATTAAGACTGAAAAAATTGAAACAAGAACCATGAAACGATTTATGTTTTTTTTCATAATTTTCCTTGGTTGATTTAATGGGATATTCCAATTTAATATTTTATTTTATTAAAATAATTATTTTTTATTTTATTAAAATAATTAAGGTAATTAACTGATTTATTTAATTGTTAAAGTACTGAATCGTGATAATGAGCGCTACTGATACAGTGATACCTATTACCAATCTAAGAAAATCACGACCAATCATTGGAAAAACTTTTTTAATACGACCCTTTTTGGTCATAAAAGAAGAATGTAGAGCTAGTTCTCTGCCTGCTAATAAACCGACAAAAACAAATGTAGTTGACATTGGGATATTATTATAAATTTTAAAATAAAGAAGTAAAAAAGCATAAACTAAATCAATGATTGTCGCACTTCTTACAAACTTAGTACTTGTCTTTTCAATGACCAAATTTTGGATCTTACCTCCGCCGGATTTGAAAACATATCCCAACATAATAACAAAGAAAAGTATAATCATTAATACAGCATTAAAAGAAATTTGACGAGGTAAAAAAACAGCAATATTAGAAAAATCCTGCTGTAACCACATAGTCCATAAGAAGCCTGTCGAGATCCATTGGGCAATTCTCCATTTAGTATCGGAAGCAGCCGGTTTTTTACTTTCATCAATAAATCGTGAAAGTAATGACCACAAAACATATGAAACAATAGCTGCAACAGCATACCCCACAATACTTTTGATTAGCATTTTTTGAACAACTAATGAAGATGCAAAAGCTGATAAAACAAGAAAAGAGGTGGAAACTGGAATTCCATTTCGTGTCAGAATTATCAAGCTAATTGGGGCAAGTAAATGCCAAAAGTTAGGTTCAATATAAGGGATACTGCTTAATCTTCCATGGCTTAGATCACCAGAAAAATATCCATGCAACATAGTGAGTGCCAAAATTAAAGAAGCAAAAATCCATAGAAAATACCAAGGAATAATTTTATTGGAATTAATCCAAGTTCCAAGCGTTTGAAGAGAATCATTAGCGACTACTGAGTATCCTGCTAAAATAAAACCAAGAACTGTATAAATTTCAAGCATATCTATAAATCTTGATTATGAAGAAGTAATTTTACCATTTTTTTCGCTCCGGAGGAGAGACTCGAACTCCCGACCTGGTGATTAACAGTCACTCGCTCTACCAACTGAGCTACTCCGGAATTTGTGTTGGAATTTTTTATTTTATTATTGAAAAAACAAGAAATATTATCCCTCAAGCTCAATAAAGATTTTTCTATTAAAGTCAAATTGAGCATGATCGTGGACTTCTTGTGAAATTAAAATTTTATCTGAATCTGAAACTTTTCCAAGAATAGCATGGGTTGATTTTAATCCACCTAAATACCAGCGCGTATCGGATATATAAATAATATCTCCTATTTCCCCTTTTAATTGATTAGAATACTTTTCAGGAAGACAAACAGTTTTACCCTCTAGTTTCTCATCAATTTCCATCAAACTAGCACTGAATCTAATTTCAGATCCTTTATTGGAATTAACTTTTGAACCTTTAAAATATTCTTGACCATCTCTAATTGTCCAAAGAGTTAATCCTTTAATTTTTGAATAATCGATTGGTTTTTTTGATAAAAAAGTAACTACGATTGCTATTGAACTACACGCCACCATATTGTAAAGAGCCTTGATATAAGAATATGGTCTATCTGCGATGTATTCTGTTCCATGAGCGAAAGGCGTAATCAATTCATAAGGATACATTTCTCCAAGGACTATAAAAATAGAGCCCAATACAAAAGTCATAATAGCAGCTCGTGAAGAGAATCTTTGCCAGAAGATTCCAAAGAAAATTACAGTAACCATGGGAGGAGTGACAATAGCATGAAAAGCACCATGAGCTTCATAAATAGTGCCATATTGAGAAAAAATAAATGCAGCTTGAATCCCAATAAAAGTAACAAATGCAGAAGTAAACATCGAAATTCTGAGTTTAGTTTTTTCGGATGGATTCTTAGCCAGTGGAGTGTAAACATCATTTACTGCTACAGCCGCTGACGCATTAATTTGAGAGTCAAGACTTGACATTAAGGCAGCAACAACTGATGCAACTAAAAATGCAAAAATCGGTTCTGAATTTGCTACCAAAGATCCAACAATTGTAAAAATCCCATTGGGGTTTGTACTTTCAGCAATAACATCTGGAAAAGCATTGGCAATAGCTCTTCCAATCCAACCAGAATTAGAAACAGCTAGAGTACCAATAGGAAGAAATACTAAAACGTTCATCATTGTAGCTCTTCTTGCATGGGCTACAGATCTTGAAGCTAGGAACCTCATAATTACTGCCTGATTCATAAATGCAAATCCGACTGATCCAACCACTCCGTCCTGCCAGAAAATTCCTACAAAATTAAAATCAGGTGGAGAATTAAAATCTGCTAAGGGTAATTTGTTCGTTAATGAAAGACTGTCCCAAAATAAATCAAACCCTCCTAGGTAGCTTATACCAAGTCCAAAAATAAGAAGGCCGGCAAATAGGAGTATTACACCTTGCAAGAAATCTGTAAAAATAATGGCTGTTTGACCTCCTAAAGAAACATAAGTTCCAGAAATAATAGCGACAATAATAATAATGGTTTGGATTTGCCATCCTAAAATTGGTTGTAATAAATTTGCTAATGCTAATAGACCAATTCCAATATAACCGATTAAATAGAGCAGCATTGTAAAAGTTGATAAATTTCTTACAGTAGAATTGAATCTTCTTTCAAAATATTCAGGAATAGAATTGACCTTCATATAGTAAATAATTGGTATCCAACCAAAAAGCAATAATGGCATAAAGAACCAATCGTTCATGTAAGTCATTGTTGAAGAAAATCCATATTCGAAACCTTTGGCTGCATATTTGGCAAAGCTATGGCTACCAACCCCAGTAGCTAACATTGACATACCAATTAACCACCATGAAAATCTTCTTCCACCAAAGAAAAAATCTTCTGTGGATTTATTATTTCTCGCGAAAAATAATCCTGCTCCTAATACTAAAAATACATATAGGCATAAAATTCCCCAAAATAGGCCAGTTGTTGGGATTACGTTCATTGAATTTTCTTACTTAAGATTGATACGTTTATTAAATAGAAAAGAAGAATTAAAAAATAATAATTGCCTTGATTTTCTAATGCAGCTAGTGTCATAAAGAGATGGATAGAGGCAACATAAATAAAACCCCAAATAAGTATGATAATCCACTTTCTGTATTTTACCCAAAAATCATCGCCATAAGCTTTAAAAACCGCGTAAAGGCCCCCACCAAAAATAATTAGACCAAAAAAATATTGATACAAATATGGAAGCCAAGAATGCGAGAATAAATCCATTATCTTAATTTATTAAATAAAGGCTTAAGTATGCTATAAGTATCTGATAAACTTTGATGAATTACTCTAGTATTTCCAACTACTGGCATGAAAGAGGTATCAGATTTCCACCTCGGAACAACATGAAAGTGCAAATGTTGATCAATAGAAGCACCAGATCCATATCCAGTATTGGCTCCTAAGTTAAATCCATCACAGTTTAAAATTTCTTTCAGAATTTTTACGGATTCTTTGGATAAAGAAATTATTTCATGCAATTCTTTATCCTCAAGTAAATCAATACTATTCACTTCCCTAAATGGTACTATCATTAAATGTCCATTATTATAGGGATAGCGATTCATAATAATAAAAGAATATTCCCCTCGAAAAAGAATCAAATTTTCTTCATCGTTATTCGCATTTGGTAAATCAGTGAATATTTTTTGAGAAGAATTTTTATTTTCAACATATTCCATTTTCCATGGAGCCCAAAGTCTTTGTTTATTGGATTCCATTATGAATAATTCTCTAAGAATTTACGGATTCGAGGCTTAAGATAAATTTTTTCTAAATCAAAATTATTGTAGTAAGTCACAAGAATGTGAATTTTTTGTTCAAGAGGGTGATGCTTATTAAGAACAACATAATTTTTAGTTTCAAGTAAGCAGTGGTCTCCTGAAAAATTTCCTTTATCATGGATTACTCTAAAATCGAATTTGTCAGATAGATCAATGAGATCTTGAAAAATTTGTTTCTGGAAAATATTTTTTTTTGATTTCAATTTATTTAATTCCTGTCAAATCACTACTACTTCTAATCTTAATACCTAAACCATCTACCATCTTAATACCATATTTTTTCATTATTCTTGTTTCAGGTATTTCGTCAAGCTTCCTATCGCCTCCATTGGCAAAAATATTAGGTTGAATAAATTCTAAGCTCTTACAAACACTTAAGTCTCTATCAATAGATAAAAATACCTCATCAACACATTTAAGCGATGCAACAATCTCAACTCTGTCTCTTTCGTTCATAAATGATTTTCCTTTTTTAATTCTTGCTTGAAAATCATTGTTTACAATAACTACTAATTTATCTCCGAGCTGTTTTGCAAGCTTAAGGTATTCTATATGACCAACATGAATAGGATCAAAATAACCGCTTACCGCTACGACAATCATGATTAGATATTAATAAGAAATATTTGAAATATCTAATTCCCAGTTTGCTCGGATAGTTATTGAATCATTAAAAGCAATAAAATATTCACCAAAACTATTTTCAAGATTGCCAAAGGAAATTTTTTGATTTTTATCTAAATCATCAAAAATAAAAAGCTGATAAACTCCCTCTGGTACATCAATAGTTTCATTGTCTTTTAAGGGAAAAAATAATTCTTTTTGATTGTTTTTCAGCATTATATAAGGTAAAGATAAATTGTCAGGTTTTTTTATTCTCAAAATTCCCAATTCACTATTTTTAGTACCTTGATCTATACTTGTACTTTTTTCAGAATTTGAAACACTGGGAATGAAAATATTAACATTATCAATACTTCGATTATCCATTTCCAGGTAATTTTTAAAAGAAAAATAAAGATTATTGTCTTCCAATTTTTTAAAGGGGGTATAGTTCTTAATGGCTGCGACTGTATACTCTCCAATGGGCAATGATGGAACAGAAAAAGAAGAAACATTTTTTAAAACTAGATAGGGTGAAGGCAGAAATTCTTCATTAAAATTAACTTTTTTGTTCCACAATAAGATTGAAATATTATCATTATCACCATATAAACTACCTGCAAGATAGTTTTTCGTAAACGAGGATTCTGAGGTTAAAGGGATAATTATGGTTTCATCTAAAGAAACATTATTTTCATCTTTAAGTGATTTATCAATGATAAGAAAATAGCTTGATTCATCTTTATTCAAAGGTGGAATCTTGATTTCAAAACGATTCCCAGAAAATTGTATATCGAGTATTTCATTTAGCATAGGATAAATACTTACACTTTTGCGAATTGAATCTTCAGATAAAAATTCAGAAAAATTTAACTTTATAATTTGTCCTTCAGAGATGTTTGTAAAGTTTTCAGGTTCCGTTAAAACTAATTTCGGAGGTGTAACATCCTCAGGTCCTCCAGAAGGCGGAATGACAGATGCGCAGCTAATAAAAAATAAAAAAACAAAAAGTCTAAAATTCTTCAAGGACATCATTAGCATGAGATTTTGTGTTAACGGAATGGAAAATTTTTTCTATTTCCCCAACTTCATTGATCAAAAATGATATCCTATTAATACCCCAATATTCTCTACCATACATTTTCTTGAGGACCCAAGCACCATAATTTTTTATCACATCACATTCAGGATCTGAAAGAATATCAAAAGGGAATTCATTTTTTTCACAAAAATTCTTTTGGGCTTTCACAGAGTCTTTGCTTATACCAATTACATTAATTTTTTTAGATTTAAAAATATCGATTTTATCTTTAAACCCTAATCCTTCTAAAGTACAACCTGAAGTGCTTGCTTTGGGGAAAAACCAAATTAAGACTTTCTCGCCCAAAAAAGATGACAAAGTTACTCTTTCGCTATTTTGATTGAGTAAGGAAAAATCTGGAGCTCTATTACCTTCTTTAATCATTATTTTCAAATTTATTTAGATATTCTTTTGACCAATTTAAGAAAGTATTTTCTTTAATCTGATATTTGATTTCTTCAATTAAATCAAAGTAATATGAAATATTAATCATAGTAGCAATTCTGAAGCCAAACATTTCATTAACTTTAAATAAATGTCTTAAATATGCTTTAGAAAAATTTTTTGCAAAAGAAATATTGCTTTTCACATCAATAGGTTCGTGGTCATTTTTGTACTTTGAATTATGAATATTGATAGTTTCATCATGAGTAAAAATTTGTCCGTTTCTTGCGTTCCTAGCTGGCAAAACGCAATCAAACATATCTATGCCTCTCAGGATAGATTTAACTAAATCCGTTGGTTTACCAACGCCCATTAAATATCTCGGCTGATTATTGGGCATTTCTTTTGCTAAAAACTCTACAATATCGAGCATAGGTTCTTTTTTCTCTCCGACGGATAAACCTCCAATAGCTAAACCGCATTCAGCATAGGGTAGCATTTGATCCAGGCACTTTCTACGTTCTTCTAAATTTATCCCACCTTGAATTATAGGAAACATTATTTGCTGATGATCATATAGAGAATTTGAACTTTTTAAATAATTAAAGGCTTCTTTAGTCCATTGTTCAGTATAACTCGACGCTAATCTCAGTTCTTTCAAAGAACAATTTGCAGGTGGACAGTAATCAAAAGCCATAATTATATCTGAACCCAATATTCTTTGAACCTCCATAGAAACTCTTGGAGAAAAAAAATGTTTGGAGCCATCAATATGAGATTGAAAAATAACCCCCGCTTTTTCAATTTTATTTAGATTCGATAATGAAAAGACTTGGTATCCCCCACTGTCAGTAAGAATTGATTTATTCCAATTAATAAATTTATGAAGTCCTCCAGCTTTTTTAATAGTTTCTGTACCAGGCCTCAAATATAGATGATACGTATTAGATAGCATAATATTTGTATTAAGGTCATAAAGTTCATTTGGAGACAAAGTCTTTACAACTCCATGAGTACCTACTGGCATAAAAACAGGGGTTTCGATAGTAGAATGATCAGTTTGAATATTACAGATTCTTGCTAACGATTGAGTGTCTTGATGTGTAACGGAAAATTTCAATTTTACCAGTCATATCCAAAAGAAATGATATATTGAGGTTTAGAATATCCCCCACTTGGATAAATATCCCATGCTGTATCAATTCTCATTAAGGCCCATGGAGTAAAGATTTTTGCTCCAATTCCAAAAGTTTTAATTATTGCTGAGGACTTTGGATCTGATAATCCATACTTATTTTGAATAATAAAAGAATCAGATAATTCATCATTATTATCCCATGCGGCACCTATATCCAAGAAAAGATGTCCAAAAATATTTCCAAATCTTATTGGAGCTGGAAACCCAACATCAACATAATTCACGAAAGGAAATCTGAACTCTAAATTCATAATTGCTACATTTTTACCCACTCTTTCTCTATATAGGGCACCTCTTATTGGAAAAACATATTCACTAAAATAAACGTCTTCTAAAATACCTGAATTTTCAATATCAAGAATTCGATCAGCATAATATCCGTAATCATCTTGCCCTTCAGTTTGGGTATCAGAAAAAATGGTTAATTGAGAATTCCCACCTAAGAAAAATTTCTGAGGACTCTCTCCTGCGCTTGATCCAAACATTAATCTTGTTGCAAAACTATACTCTCTATTGATTTTAAAGTATTTACGAATATCAAATTTGTAAGTATTAAACGAAATAGAATCCTGGCCAAGTTTAGGGCTGGCTTGAAACGTGAAATAATATCTCAGTCCGTCATTTGGGCCAGTGTATGTATTTGATGAATTATCAAATACATAACTAAACATTGGGATAAGAGCATTTAATTTTTCAGTATAATATGTTGAAGTTTTGTAAGTATAAATATCAAATTGTTTAATATTATATTCTACTCCTCTCAAAGTTGCTCCATAATCAATTCTTGAAAACTTTGAAAAAGGATATTGGGCATAAAGGGCTACACCATAGTCTCTGAGTTGTCCATAATAATCGTATAAAAGAGAATATCCTAGGCCAAAAGTGTTGGCTTGTTGAAATAGAAGAGCATAATAATTAGTTCTATTTTTTAAAAAAGCATAACTCAATTGAATATCACTATTTTCAAAATTCATAACCAAATTTGAACCCAAGCTGATTCTTTGATCCCCCAGAACGTCACTCCATGAGAAATAAGCTAGGGCCCTTGTCCCAAATAAGTTATCGATGGAAGCAGATGTGGCTACATAATCAATAGAAAAATCAGTAATATATTTTTGAGAATCATAAGATTCAGAAATCCTTAATGAATCAATTACAGTTTCTGTTTTAGTTAAATTTTCCTCAGATAATTCTTTATTATATTCTCTTGCAAATACAAATCTTGAATAATCCTGAGAAGCCTGTAAAGTTTGGTTATCACTAGCAAATCTTAAATCCTCAAAATCTTCATCATCGTATTTATTGCTGAGATAATTTGCATTTTGTAATGCCTCAGAATCAATAGTTTCTATTTTATTCAAAAGAAATAAATCCCACCCTCTTTTATTATACCCTGACATAACTATTTTTTCACTAATTGGATTATAATCGAATTGTTGAATTCCAGTTAAAACATTGGTAATAGGCTCAAATTTATTTGAGTTGAGTTCATGCTGGTAAATATTAGAAACTCCATTTTGATCTGAAGTAAAATAAATTTTATTGGTTGAGGAAAAAATAGGAAAATCTTCGTTAAAATCTGTTTTAGTAACTTCAACAATCTCTTTTGAAATATAATTCAAAATAAAAATATCATTTTGAAAAGATGCTATTTTTTCTATTGAAGAATTATTTTTTAAAAAACTATTTCTATCAGAAGAAAATATAATGTTTGAACCATCTGGAGACCACGAAGGATTAGTATCGGAGAAAATATCATTTGTAAGATTGACTAATTTTTTTGATTGAATATTATAAATGTAAAGATCACTTCGGTCTTTATAATGACCAGCAAAAAGAATGATATCCTCTTTCGGATGCCATGAAGTAGTGAAAATTCCATCAAGGTCAATTGGAATTTTAGTATAATCTTTTGAATTGACGTCAACAATGATTATGGCATCTTCTTTACCGCTTTTTGAAGCAAAGACGATTTTAGATCCATCAGGAGACCAAGATATTCCAGGTTGAAGCCATTTAAGCTCTTCAAGATCAGGAGTAGTATTACCTCTTATCAAAATTTCTCTTTTTGTCCCTGAAGAATTAGTAATAACTAAATCCATATATCCTGCCTTATCAGAGAAGTAAGCGATTTTACTTCCATCGGGTGAGAAGGAAGGACTGATATTATAAAAATTAAAAGACTTGGATCGATCTGTTATTTTAGTTCCTATATTTTCAACTTTTTCTTTTACTGCAATCTCAGGCCAATACTCTTTTTTTAAATAATCATGCCAATTTTCTGTCAATTGTTCAAAATCAACACCTAAAGCATTTTGAAAGCCTTTCTCAGCATTTTGTGTTCTACGCATTTGTTGAAAAATCTCACCAATTTTTTCTCGACCATATTTATTAGATATATATCTCCAGACAGATTGTCCTCCTTTATATGCTAAAATTGAATAATTCAGTTGCTGTATAGATGGCAGATTATCTTCAATTGATAAATCTCTCATTACCATTTCTGAGTTTGAATCCCAATTTACAGAAAGAAATTCAGCTAGGCCTTCATTTGCCCAAAGAGGAATTTGTAACTGGATTCTTCCGCTAATAAGTCCTTGCGCATTTCCTCCATATGCTAAGTCATTGATTGCAGCATGCACTAATTCATGATGAACTACGTGCTTAAATTGTTCATAAGATCCTTCAAAAGGAATAACGATTCTGTTTTTAAATAATTCAGTAACTCCTCCTACCCCTTCAGACATGTAAGAATCCACAACATTAGTTTGTTGAAAATCGTTGTGAGAATTATAAACAATAATCTTGATTGGTCTATTATTATTCCATCTTAAATGTTTGCCAATTTGATCAATTGATTTTTCAGCAATTTTTGAAGTATAAATAGCTAAATCTTTATTATCTCCATAATAATAAATATTAAAATTTGGACTAACGATATATTCCCAATCGAAATTTTTATACTGAACTTTATTTTGACCAAAATATTGACCAAAAATAACAGAAATAAATAAAATGCTTAGTGATAACTTTTTCATTTGATATTATTTTTAACTATTGATACTGAAAATTTATAACATATATTACAGAAAAATGTTCCAAATCGGAAAAAATCTATGAATGAAAAAATATACTTTTTTGCAGATGTACATTTTAAAGGTACTTCTTCTGAAGAAGAAGAGAAAAAATTTTTAAAATTTCAACATTTCATTAAACAGATAATTCAGAACAATATTAAATGTTCGGTCTACGTAATAGGAGATCTTTTTGATTATTATTTTGAGAAAAAAACATTAATTGCAAATAAAAATTATAAAAGAGTTTTTTTAGAATTTGATAAGCTCAAAAAACATAACATTCAATCTTACTTTATTGCTGGAAATCATGATTTCTGGATTGGAAAGGAATTCAAAAAACATTTTACAGATTGCTTTTTGGAAGATCATATAATCACAAAAAATAATATAAATTTTTATTTAACGCATGGCGATGGAATTCTTTCTTGGGACCGAAAATATAGAATATTAAAAAAAATTATAAGGAGCCGAATTTTCATAATTTTATATTCTCTTTTACCAGGCTTTATTGCAACGAAGGTAGGGAAAACCATTTCGGAAAAAAGGAAAGATTCTCACAAACTGGATAATCAGGTTTTAGGAAAAATTCAACTAGAATTAAAAGAATTTTCAGCAAAAAAATGGCAAGAAGGAAATGATTGGGTAATTATGGGACATTATCATCATCTTTTCCAATTTTCTAATAATAATGGAAACGGATTGCTAATTCTTGATGACTGTGATGAAAACCAATTCAATTATGCAGTTTTTGATGGAAAAAATCTTTTACTAGAAAAAATCTAAATTTTTCCACTAATCTTTAACATGATTGCGTTCTGAATATGCAATCGATTTTCAGCTTGTTCAAAAACTACTGAATTTTTTGAATCTATAACATCATTAGTAACCTCTCTCCCTCTTTCAGCAGGCAAACAATGCATAAAAAGATAATCTGGCTTAGCAGTAGAGACTAGTTTAGAGTTTACCTGATACGATGAAAAAGATTTGATTCTCTCATCTATTTCATCTTTTTGACCCATTGAAGCCCAAACATCAGTATAAACAACATCAGAATTCTTTACATCATCTATTGAGTTCGAAATCTTAATACTAGAAATTCCAGAATTTTTAGCCAAATCTACCGTAGTATTGTCAGGGTAAAATCCTTCTGGGGAAATGGAGATAAATTCAATCGGTAAAATGGAAGAAAGACGTAACCAAGAATTAACTATATTATTACCATCTCCAATGTAAACGATTTTTAAATGATCAAAATTACTTTTTTTGAGCTCCCATATAGTAAAAATATCTGTCAATATTTGACAAGGATGGTTGTAATCTGTTAAACCATTAATTACAGGAACAGTAGCATTTTTTTCAAAATCTAAAATGTCATTATGGCTAAAAACTCTTGCCATAATCATGTCATTATATCTACTAAATAACTGGGCTAAATCAGAAGCAGTTTCTCTTTTGCCTAAACCAATATCTTGCGGAGCCAAGTAAATTGCATGACCGCCCATCCAAGAAAAACCTGTTTCAAATGATACTCTAGTTCTTGCAGATGGTTTGGCAAAAATCATTGCTAAGCTCAGGTCTTGAAACGGCTTAAAATTCTCTTTATTTCTAAATTTTTTCTTCACCTCTGATGCAATTTCAAAAAGCTCAAAAATTTCACTTTTAGAAAAATCATCAACTTTAATGCAATGTCTTAAATTCATATTCTTCTCTCGTTAGCATTTTTAATATCAAGTAATTGCCTATATTTTACAATTGTTCTACGAGAAATATCATATCCTTTTTTATCTAATTTGTCTTTTAATTCTGCGTCATTGTATGGATTAGATTTATCCTCATTATTAATAATAAAAATAAGGTCATCCTTAAGGACCTCAACAGAGACTATTTCAGTATTTTTTATAATCCCCGACCCAAATAAGTCTTTAAATGAGATTATTCCGATTGGACTATCAAAATACTTGTTTTTTATAGCTCTACTGACTGTAGATATATCAATATCTAAACTTAAAGCTATATCTTCCATTTTCATTGGTGAGGGATATTTTTGATCTCCTCTTAAGTATAAATCTTGAATTATGAGTATTTGTTCCGTGATAATTTTTAAGATAAAGAATCGATATTGAATGCTGTCAAAAATTAGTTTGGCTTTATCAATATTTTTTGAAACAAAACTGAATTCATTTTTTGAAAGTTTGTTGAGGGTAGCGGCATTAAGATAATCAGAAGAAATTTTATATTTTTGCATTATTTTGTCATTCTCAACCACTACCCACTGATAATCTTTGTTTAATTGAATTAAAATATCGGGGATAATGATTTCATGTTTCACAATTGAATCTTTGAGGGGCTGTAAATCTTTAGATTTAATCAATTCTATTGCTTCAAGAAATCTTTCAGGGTTAGAATTCGTTTTAGACTGGATAAAATTAAAGTTTTGTTTTAGAAAATCTTCAAAATAGTTATAAATAATTTGAACAGATAAAGAATTTTCATCGCCAATTTGAAATAATAAATACTCTTTCAAATCTAAACATGCTATACCTCGAGGATTTAAATTTTCTTTTATAAAATTCCTTACGAGCTCTAAGGTCTCAATTGAAATATTTAGATTGTCCGCCAATAGTTCAATTTCAATTTCAAGAAATCCTTTACGATCTAAATTAAATAAAATTTCTTTAGCGATGTTTTTTTCTGATTCACTTAAAATAGATTCATTTATTTGTTTAATCAAAAAGTCTTCAGCTTCATCTTCTTGGGGAATATTACTGAAAAAAGAATCATATTCATCTTGGCTCTGAAAAAGTGAATCATAATTTTCTTTAGAAAAACTAGTAGAGGTTGATAATTCTTCTAAAACTGGATTTTTTTCCAACTCTTCTTTTACTACTGATTCAATTTCTTGATTGGAAAGCTCAAGTATACTTGATTGTAAAATTTGATTTGGAACTATTTTAAGTTTTTGACGTATTTTTGGAGAAATCTTCTTCATTAACTTAGCTTAAAATTTTTTCCTAAATAGAGCCTTCTTACTTCCTCATTTTTGGATAATTCCTTAGCATTGCCCGCAAAAAGAATTTTTCCATCATTAAGCAAGTATGATCTATCGGTAATAGAAAGTGTTTCACGAACATTATGATCAGTAATCAAAATTCCTATGTTTTGCTTTTTTAAAGAAATAATCATCTGTTGTATGTCTTCAACAGCAATGGGGTCTACTCCTGCAAAAGGTTCATCTAAAAGGACAAAATCTGGATTCAGGGCAAGAGTTCGAGCAATTTCTACTCTCCTTCTTTCTCCTCCAGATAAAGTTCCTCCTAAATTTTTCCTTATAGAAGATATATTAAATTGCTCTAAAAGATTATTGATCGTTAAGTTTAATTCGCTCCTATTGGGATAAAAAGACTCTAAAACTATTTTTAGATTGTCCTCCACATTTAATTTAGAAAAAATAGACGGTTCTTGCGCTAAATACCCAATTCCCATCCTTGCTCGTAAATACATTGGTTTAAATGTAATGTCTTGATTACCAAGCATAATTTTTCCACTTGAAGGTAAGATTAAGCCACTTATCATGTAAAAGGTGGTTGTTTTACCAGCTCCATTTGGACCAAGCAGTCCAACTACTTCTCCTTTTGAAAGCTGAATATCTACTTCATTAACAATAGTCTTTTTTCCATAATTTTTAATCAGTTTAGATGCTGTTAATGTCTTACTCATTGTTAATAACTCCTTTTGGATTTCTTAAAATCCAATTAGAAAGATCAATATCTGATTCAAAATAATTCCCATAAAGAGTATCTTTTGAAGTGATAAAAAGAACATCTGAATCTGAAATAATTTTGTTAGAATCATTGTTCCATTCCATCGTTTGACAAAAAAGAAACTTTTCTTCTATCCCTTTGACTTGGATATTCCCAAATGCCTTTATTATATTTTTTTCTTGATCAACAAATGCTGAATCACAACTTGTAATTGATGAGAGATTTTTATTCTCAAATAAAATTATCTGAACATTTCCATTCAGTCTCATAAAACTTTCTTTATCATTTTGAATTAATAAATCTGATTTTACTAATGAAGAAATCTCACCCTTATCGGTTATAGTAATCTCTACAGATGAAGATTCTTGAACGTTTATAGGGGTGTTAGAATTCTTAACTTCACGAATTTCAGAACAACTAATTAAAAATAGCGCGATAATAACTAATTTCATTTTAATTCATCAATTAGAGAATTTAAATGATTTTCAAAATCTCCCTTTGACTGAATAATAAGATCAATAACTTCTCTAACAGCACCTTCACCACCATGTTTTTGTGTCACATAGATTGAAGCATTCTTAACATATTCTGGAGCATTAGGAACAGATATGGGACATCCAACTTTTTCAAGAATTGGTAAGTCAATTATATCGTCGCCAATAAAGCAAATCTCATTATCATTTAAATTATACTTTTCTTTTAACTCATTATATGCATCTATTTTTCGAATAACTCCATTATATAATTCATCAATTTGTAATTGGTCAGCTCTAATTTGAGTAGAATATGCTTCTCTACCCGTGATCCAAACTGTAATGATATTTAGATTAAGCATTCTTAACATCACGAAGCCTACTCCATCCAAAGCATGAAACATTTTTGACTCTCTACCGTCAGAATCAATTATAAATTTCCCATCTGTGAGAATTCCATCTACATCACAAATTAACATTTTAATATTTTTTAATTTATTTAACATCAAGGTATGCCTTTCTGAAATGTAATGCAGATTTTAAAAGGGTTTCAAGTTTGTTTAAAGGCCACTGTGAGCTTGAATCACTTAAAGCTTGCTCTACATTATCATGAACTTCAATGAACAATCCATCACATCCTGATGCTACAGCAGCATTGACCAAAGTAGGTATAAATTCTCTCTCTCCGCCAGTTGTGCTCTCCATTAAACCTGGAGCCTGTATACTATGGCTAGCATCAAAAATTACGGGATAACCGAATGACTGCATTATTGGAATAGATTTCATATCTACAACCAGCGAATCTAATCCGAAGGATGATCCTCTTTCTGTAATTAAAATATTTTTATTTCCTGTGCTTTCAATTTTTTCAATAATATTTGAAATTTTTCTTGGAGATAGAAACTGTCCTTTCTTGACATTAATAATTTTTCCCGTTTTACCTGCAGCAACTAATAAATCAGTTTGTCGACATAAAAAGGCAGGAATTTGTAAAATATCAACAAAATCAGATATTTTTTCAGCTTGCTCAGGCGTATGAACATCTGTTAAGATTGGTAAACTGTATTCCTTCTTAATTGATTGAAAAATTTCAATTGCAGTTGATAAATCAACACCCCGATAAGAATTAATTGAAGTACGATTTGCTTTATCAAAGGATGTCTTAAAGATATAAGGGATATTAATTTTATCAGTTATAGCTTTAATTTCCTTAGCCATTGACAAAGAATGTTCTTTGCTTTCAATAACACACGGACCTCCAATGAAAGGCAAAGAATTTCCTCCGAAAAGAATAGAATTATTTTTTATTATATTCATTAATTACTTTACTGATAATATATCAAATCTTCTTCAACATCAATACTTCTAAACTTAAAGTCAGAAACAACGATTTTAATTGGAATTCTATTATCCATTGCCCTTAATTGCTCTAATTTTAGTTTTATTTCATTTTTTGTCATTGAAAGCTTAATAAATTTTTCAAAAATTTCTTTTTTAAAGGCATAGATTCCCACATGTCTTAATAAATTATTTTTTTTATCTGTTTCTCTATAAAATTTAATAGCATAGTTATAATTATCGATTAATACTTTAACTACGTTAGGATCTTCAAAATCTTTATCCTCAATTATTGTAGATGCTAAGGAAGCCATTCCTGCTTGAGAACCTTCTAGTGATTCAATTAAACGATCTATTAATTCTGGATCAATTTTAGGTTCATCTCCCTGAATATTTACTACTATATCATAATCTAAATTCTGAATTGCCTCACCTACTCTATCTGTACCTGATTGGTGAGATGTTTTAGTTAAAACCACATCTGATGGATTAAAAAGTGAAGCAATTTCATTCGAATCAGTAGCTATGATTAACTTGTTAATTTTTTTTGAGAGCTTAGCCTGAGAAAATACATGCTCAATGACACTTTTGCCTTCAATTTGATAAAGAAGTTTTCTGGGGAATCTTGTAGAACCTATCCTAGCAGGTATAACGCCAACAATCACTTTTTTTCTTTTTTTACAACTTGTGGAATTTTAATGTATCCATCGAGTGATTTTGGAAATATTTTTTGAAGAGATTCTATTTTTATAGGGTCTAAAGGATCATCAGCTACTACAAGAGTTTTATGTCCATGGACATTAAACATCGGTTCAACCCCTTCAGTATCAACCTCGTTCAATAAATTCATATACTGAACTATTTCGTTCAGCTCTTTAGTATATTTTTTGAGCTCTTCTTCTGATAGATTTAATTTTGAAAGATTAGCAATTTTTTGAATTTCTTTTTTTGATAATTTTGCTTCTGACATTTTTGAAATTATAGATTAGCTATAAATAAATCAAAAATTTATTCATATCTCATTGAATCGATAGGATTTAATCTAGAAGCTTTTAAAGCTGGATAAAGCCCAAAAATAATTCCCATTAGAGCGCAAATTCCTAAGCTATAAAAAATCCAGTTAAATGGAATGAGAGGATCTTGTTGTAAAAAATAAGCAACGATGTTACCAAAAGAAACTCCCAAGATAATCCCAACTATCCCCCCAATAATAGAGATTAAGGAGGCTTCAATTAAAAATTGTAAAAATATATCACTTTTTCTAGCGCCTAAAGCCTTTCTAACACCAATTTCTTTAATTCTTTCTGTTAAAGAAACTAACATAATGTTTGCGATTCCAATTCCGGCTACTAATAATGAAATTCCGGCTACTAAACCAATAAACATTTTTAAATAAGAAGTGAAATCTCCAAAGGTTTCTTGTAATTGATCATTCGTTGCAAGATAAAAGTTATTTTCAGCTCCAGGAGGAATTTTTCGTATTGACCTAAAAACTCCTATAGCTTCATCAGAAGCTTCATCAAGAGTTTCCATCGACTCAGATTCTAAAATCAGCTGTAAATCGGCTCTCCTCCAACTTCGACCGCCAAAATATTTGAGGTAAGTAGATATAGGAATTCCTATAGTTGAGTCCATACTTTGACCTAAAACTTTTCCTTTAGGACTTAAAACACAGATTACTTCAAAAGGAATATTATCAATTTTGATTGTTTGACCCACAGGATTTGAGAAAGGGAAAAGTTCTTCTTTAACATCATAACCAATCATTGCAACTCGAGAAGAGTTGTCAAGATCGATTTGTCGAATACTTCTCCCATCAATAATATCATATTTATAAAGTGAAAGTATGTCTCCATCGCTACCCCAAAGACTACTTAATCTATTTTTTAACTCTTCACCTTCAAATGAAATAGTTCGATCACTGGGTTCTTCAGCAACCACCGCTGACATATTAGTTGTTAAAGTTAGTGAACGCTTTAATTGTTCATACTCTGTCCAGGTAATACTGGGTTTATTTCTTGCTCCACTATGTCGAACTCCAAAAGATATTTCAGTTGGATTATCTTTAGTAATATAAAAAACATTAGTCTTCATCTCACTAACTAGACCATCTGTAGCTCGTTGAAAAGTTGCCAACACTGTCATGATTGCAATGATTGAAGAAACACCTACTGTGATACCTAATAATGTAAGTGCAGTACGAAGTTTTGTTTGACTGAAATAGTATAGAACTCCACCAATTGCATCAGACAAATAATTGAATATTCTATTCATGTCTTAAAGCATCGATAGGATTAAGACTAGCTGCGTTTCTGGCTGGAATCATTCCTGCAGTAATACCAATAAAGACACAGACTAAAAAAGTGTAAAAAATCAATAGTAAGTCAAAAGAAACTGGAAGAAATGAAGCAAGTGCTAGTGTTAATAATTTGACAAGGATTATTCCAGCTAGACCTCCGATAATTGAAATTGTTACGGCTTCGCTAAGAAATTGCACCAAAATATTTCTACTTGTTGCTCCCATAGCTTTTCTTAAACCAATTTCTTTAGTTCGTTCTTTGACAGAAACAAACATAACGTTCATGATCCCAATAGCAGAAACAATTAAAGAGATTCCGGTTACTAAAAATCCTACCCCAGCAATAGCAATTTTAAGACTATCAAATTGTTGCTTGTAAGCATCGGCAGAATTGACAGCAAAATTATTTTCTTCATCAGGTTTAAGTTTTCGTGCAACTCTCATAATCATTTCTGCTTCTTCTTTGGCTATAGCCATTTGTTCAGGCCGTGTCTTAAGAACTAACTCATCAAAACCCCACCTAGTTAGGATTCTTTTGAAAGTGGTGGATGGCATAATAACTAGATTATCTAATGTTCCGCCCGGAACCATTCCCATTCCTTGTTTCTTTAGCTCTCCAATAACTTCAAAAGAAACTCCACCTAATCGGATAGTCTTTCCTATAGGATCTTGACCATCAAAAAAACCATCACGAACGGTGGCACCAACGATAATTACTCGACGTTGTAAATCCCATTCGTTTTGAGAAAAAAATCTACCATTTTCTATTTTAGTCCCACTCAACATATCCTGATAACTCGGATAAACTCCATTAATTTGTAGCCATGACGCAGTATTGCCATACGAACCTCGAATCCAACTCGTTTTTCTCAAGCTAACATCGTCAATGTATTGGCTATATTGAGTAATATATTGAAGATTATCTTCTTCAATTCTTGGACGATTCCTATATTTCCACCAATCAAAATTGAACGACCAAGGCCATGTCGAGACATATAATTTGTCATTTCCATAATATGCCATCGATTTTTCAAACTCTTTATCAATGCTGGAAACTCCAGCAGTAATAATACTGACAGTAAAAATACCAATAGTGAGCCCAAGTGAAGTAAGAAAAACTCTAGTGGGGTTTGACTTTATTGCCCTTAGGCCAATTGCAATATTTTGAAAAATGTTATTCATCTTTAGAAATCTTTCCATCAAAAATCTCAACTTTTCTTTTTGCTCTATTAGCTACAGAATCTTCATGCGTAACAACAATTATCGTATTCCCAGCCTTATGGAGTTCATCAAAAAATTTCAATATTTCTAGTCCGCTTTTAGAGTCTAAATTACCTGTTGGTTCATCTGCCAAAATTATAGAAGGACTATTAACAAGCGCTCTTGCAATAGCAACTCTCTGTCTTTGTCCACCTGAAAGCTCGTTTGGTTTGTGATCAAAACGATCTCCCAAACCTACCGAATTAAGAGCATTCTTAGCTTTTGCTATTCTTTCAGACTTTGACAAAGAAGAGTAAATTAGAGGTACTTCAACATTTTGTACAGCATTTAGCTTGGGTAATAAATTAAAAGTTTGAAAAACAAAACCGATTTTTTGATTTCTTATTTTTGCTAAATCAGAATCTGTCATCTTGTCAATTTCAATATTATCTAATTTATATGTTCCTTTTGAAGGTACATCTAAACATCCAATAATATTCATTAAAGTTGATTTTCCGGAACCGGATGGACCCATAATAGAAATAAAATCATTTTCGTATATTTTTAGAGAAACATTATCTAAAGCTTTAACAACATTGTCTCCTAAATGGTAGATTTTAGAAATTGATTCTATTGAAATAATTTCTTTTTTATTCACTAGTTCTTCTATTGAAATTTTGACTTTCTTTTAATTGTACTTTAGCTCCGTCATATAGTTCTCGGCTAATCGCAACAAAACTTCCTGAAACCACTTGCTCTCCTTCCTCTAAGCCTTCAAGAACTTCATAATCTCTTTCACCTACAATGCCAACTTTTACATTTCTCTGTTCGACTTTATCGTCAGCATAAACAAAAACAACTGTACTTTTTGGTTGATTAGCACCACCTCTCATCATAGAAAAATTTGGTCTTTGACTATTTGAAGTTTCTACCTTTACTCTAGATTTTTTTTCTTTTGTTGGCTTAGGTCTTGGAGTGGTTAAAGATTGAATTGGAATACTTAAAGCTCCATTTCTTTCTTCAGTGATAATTTCAACAGTAGCGCTCATTCCAGGTCTCATTCCATCCACCACTTCAAGCATTTGGATTTTGACTTCAAAATTTGTGACCTGCTGTTGCGATCCTCCACTAGCAGTAGTGGAAGCGTAAGCTACTTCCTTTACAATTCCCTTAAATTTTTTATCCTTGAAAGCATCTACTTCTACAATAGCGGAATCATTGATTTCAATTCCAGCGATATCATTTTCATTGACATTGACATTCACTTCCATCTTACTTAGATCTGCAAGTTTTATTAGAACTCTTGGATTAAACATACCACCTTGAGCCAAGTCACCAATCTCCCCCTCAACAAATGTAATTGTTCCATCTTGTGGTGCAATTAAACGTAGTTTGGATAGGGAGTCCTCATCCATAATAAGTCTAGATTTTGCATTGTTGAATGCACTTAATGCAGAAGCATAAGAAGAATTGGTTGCTTCCATTTCTTGATCAGAAATTAGCCCTTGTTCGTAAAGTTTATTTTGTCTCTTTTGTTGAGAAGCTCTTTGCTCTAATTGAACTTTAGCTGCATCTAAACTGGCTCTAGATGCTTCAGTTTGCGCTCTTTGTTGTTCCTCATCAAGAGACATTAAGAAATCCCCTTTGCTTACTTTATCACCCTCTTTAACCGCAATATCAGTAATGTATGTAGTATTATTTGCACTAAGCTTTACTTCAGTTTCAGGCTGTAAGATTCCATCTGCAACTACTTTACTTGAAAGATTTTTTCTTTCTACAGAAATTGTTATTACCTCTATAAGCTCTTCTTTATTTCTTGAAGAAAGGAAAAGAGCAGCAATTATTAAAAGTGCGGCTACTAATCCTATTTGAATTTTCCTATTTTTTAACATAAAACTACTCTCCTTGCTGATATTTTTTGTCTAAAGTTCCTAATAACCTATCTAGGTTAGCCACTTGAATTGCAGCATCATACTTTGTGGAAATAAGGGACGAGCTTGCCTGAATTGAAGCTAACTGAGCATCAAGAAGTTCAAGGATGCTTGCAGACCCTAACTCGTATTTATTTTGAGCGAGCTTCAAGTCCTCTTCAGCTGATTTTAAAACCTCTTCTTGAATTGGTATAATTTCTTGAAAATTGTTTAAAGTATTAATTAGTTGGTATAGATCAACCTTTGAATCTTTTAAAACTGAACTATATTTAGATTCTGATTGATTCAAACGAATTTTTGATATTTGAACGTTATTACGGTTTCTAGTACCGGTAAAAATTGGGATACTAAGAGTTAAATTTGTGTTTTTAATATAATTATCATTGAAAAATTCTGATGAAATTGAGGCGTCCGAAACTGCATTCATACCTACGCTAAGTCTTACTGAAGGTAACATGCCCGCCCAAGATTGTTGAACATTGATTTTAGAAGATACAATCTGACGATCTAATATATTCAAATCAGGATTATTGGAAATCATTAATGCTAAGGCCTCTTGATAGCTAGGCACAACAAAGAAAATATCCACTTTTTTAGGCAATTGTATAGAAATATCGGAGTCAATCAACCCCATGCTATTGAGCAGCTTATTGAATGAGTTATCCTTATTTAACTTTCTTGAAAGCAAGTTAGATTTTGCGGTTCCGAAGCGAACCGATGCTTTTAGAAAATCTGTTTTACTAACAGCTCCAAGATTATATTGTTCTTCAACTAACTCTAATTGTTTTTCAGAAAGTGAGAAATCTTTATTAGCTATTTCTAGCAATTCTGAGTCTTTTAAAAATTGATAATAACTAGAATAAACATTAAATATAATATTAGCCCTTGATCCTCTTTCCTGCAGCTTAGTTATTAAAAAATTATTTCTCCCCCCTCTAACATCTTGAAGATTATTACCAAAATTAAAAACATTTTGAGATAAGCTAATACCGGCAGAATATTGTTCAGCCATATCACTAGAATTGCCATAAGTAGTTTCTCTAAAACTATTATTAACACTTACAGATGGTAGAATAGATGCAAGAGATGAATATTGATTTAATTTAGCAATTTCAACATCTTGTTCAGCTCTTCTAATAGAAGATTTGTTGTCTAGTGCAATCCTTACACATTCATCAATTGACAAGGACTGGGTGAAAGCAGGGTTGATAATGATTGATAATAAGATAAATAATTTAATTATTTTCATCATGGGACATAAATATACATACATATTCATTCTTTTCAACCTATTAATTAGACTAAGAAAAATTAAAAAAGTAAAGAATTAACACTTCTTATTTTTTTTAACTTGACTTAAAAATTCAATTCCTGCCGAATATGAATTTTTAATTTCTCCATTTAAAATTGCTTCTTCAACCATTGATTTTATTTCTCCTACCTTTTTACCAGGTTTTAAAGAAAAAAGTTTCATGATTTCTTCTCCACTAACTGGGGATTGAAAATTTCTCAATTTATCGGTTTCAATAACTTCAGAAATTCTGTTTTCTACTCGTTGAAAATTGTTCATGTATTTTACCATGTTATTAATATTTTTAGTTGTAACATCAGCTCTGCAAAGCTTCATCAAATCTTCAATTTCATTTCCAGCTTCAACAATTAATCTTCGAATTGCAGAATCGGTAACTTCTTTGCCAGCTAATGCAATAGGTCGCAAATGAAGAGCAGTTAGCTTTGTTATATAATCCCGAGTTTTATTTGATATCTTCATCCTTTTACAAATTTCTTTCAACATCCTTGCTCCAACATCATCATGACCATGGAATGTATATCCTTTCTGCTTATGAATTCTTCTAGTTAGCGGCTTACCAATATCATGAACTAAAGCAGCCAATCGCAAATCAATTTTAGATGTTGAATCAACTATATTATCAACTACATCTAAAGTATGATAAAAAATATCTTTATGATGATATTCAGGATTTTGATCTAGTCCTTTCATTACATCTATTTCAGGAAAAATAAGCTCTAACAATCCCACTTCTTGAAGAAAAATAAATCCAATAGAGGGTTTAGAAGTACTAAGAATTTTAAGGATTTCATTGGTAATTCTCTCTTGAGAAACAATTTCTATCCTAGTTCGATTATTTGTAATTGCTTCTATAGATTTGATATCAATTTGCATTTGCAATTTAGATGCAAAATAAGCGGCGCGAATCATTCTTAGAGGATCATCAATGAAGGTTTGATTAGGATCTGATAAAGGAGTTCTTAAAATTTGATTTTTGAGGTCTTTAAGACCATTGAAAGGATCAATCAAAGAGCCGAAATAATCATTAAATAAAGAAATTGCCATAGCATTTACAGTAAAATCTCTTCTGATTAAATCTTCTTCAACAGATGTTAAACTAACTTTTGGCTTTCTTGAAAACTGATCATATTCCTCTGATCTGGCAGAGGCAACCTCAATTTCAAATTTCTTATATGGAATTTTTGCTGTGTTAAAATTTTCAAAAGGAACAATGGTTTTGACGCCTAATTTGTCTGCTAATTTTCTAGCAAAATCAATTCCATCCCCTTCAACCATAATATCTACATCAAAAGAAGAATCAAGAGGGTCTACTATCAGATCTCGAACACAGCCTCCAACTAGATATGCGGGAACATTTAAGGAATTGGACAATTCAGCAATTGTTCTAGAAATACTTTCAAGGTTTTGATTTTTCTTTAAAATATCAATAATCTTTGTCATTGTTTAAATTAAAAGATATCTTCTAATTATGGTAAAAAAACTACAAACACTTTTTTGTTGTCTGATTTGTGTTTCATTTCTCTTTGGTCAATTTAAAACCGTTAATGTTGAGTTTGATGATCGTCTATTAAAGAACGATGAAAAAAATCAGTTATTTTTTTTGAAATCCAATATTAAAAATTTTTTTGAAATCTCATCATGGAATAATGATTTCTCAGACTTAGACCTTCTTATTGATGTGCAAATAATTTTTGAAGGAAGTTCAATTTCTGGAAGCGATCAAACGTTTGGGGTTCAATCTCTTTATACCAATAATAATGATATTCATTTTTTTGACAAAGGGGCTCAATTTTCTCTGTCTCAAACTAATAATCTATCATTAGATGATGTCAATTCAGATCCTCTTTCGGTTTTATTAAGCTATTATGGAAATCTCATATTAGGGGCTGAACTTGATTCATGGGAGCCTCTAGGAGGTTCAATTCATTATGAAAAAGCACGATTAATTGCTGTTAAGGCTTTAGGTTCTAATTTCCCAAGAGGCTGGGAACAAAGGTTGCAAAATGTCAATCTTTTATCAGAAAATAATGGACTTAGGAAACTTCGATACTCATCATATGCATTATACGAATATTTCAGCTTAGGCGAAATTGATCAATGTACTATCATTCTAGAAGAAATAATTTCAAACTTGAAAGAAATAGCGATGATCTATAACCAGGAGAATTATACTAATTCTTTTATGAACTATCATGGAATCAAGATTGGTGACATTATGCAAAAGCTGGGGCAAAAAGAGTTATTAATTCAACTCAGCTACTATGATCCAACAAGAAGAAATATTTATGAAAATTTTTTAAATGATATTTGAGAAAATTTGCGTTTAAAAAATAAAAAGTAATCAATTGCAATACTTCCCTGGTACATACTTATCTTTTGATTTTTAAGCATCTCTTTTCTATGGATCATAATTTTTGGGAAATTGACTATTACAGAACAAAAAGAAAAAATGATGGCTAAAAATCTTGACCAATCCAATCTAAAAATAGAATACACTAAAGCCAAAATGTCTAATATAAATCGGTTGATAATCCTTGCTCCGAACTTAAATGTATCTGAATTTTTTAAAAACAAAATCCAAGAATTTCGGTGGTTTAAGAAATTGGATTTTATACTTCCTTTCTTAATAGTCATTTTACCATGATGATAAATTATTGATGATGGATCAACCCAAACTTCGAAACCCTTTTTTTGTAATCTCCAACAAAAATCTATCTCTTCCATATACGCAAAATAATCTTCATCAAATCCATTTAGCTCTTCAAATAAATTCTTATACGTCATTAATGCTGCGCCAGATGCCCAGAATATTTTCATAGGATTATCATATTGTTTTGTATCCAGCTCAATTGATTCAAATATTCTTCCTCGACAAAATGGAAACCCATAAATGTCAATAAATCCACCTGAAGCACCAGCATAATCGAAAGAGTTTTCATTCTGAATATTTCTAATTTTTGGTTGAATTGCACCAACTGACGAATCATTATCTAAAAATAAAATTAATTTTTCTATCCACCCCTTTGAATGTATAGTGTCATTGTTAAGAAATAACAATAATTCTCCTGAAGCGTTGGAGGCGCCAATATTGCAGGCCTTACTAAAACCATAATTTTTCGTATTATTGATTAATATAACCTTATTAAAGTCATTGACCAGAGTATTGACAGAATCATTAATAGGTCCATTATTGACCACAATGATTTCGTAATCTTCTAGTAAGATATTCTTTTTAATTGAGTTAATACAAGCATATAGAAGCTTGCGATTATTCATATGTGGAATGACAATTGATAATTTCAAGATTGACTCAATTCAACTAATTGATCAAGTAGATTTTGAGCTTCCAAATCTTGGGGGTTTCGTTTTAACCACCCTTCTAGTAAACGAATGCCATCATCATACTTTTCTAATTCTTTATAAGATAAATAAAGCAGATAAACAACTTCAGGGGTATTTTCTTGCCATTCCAACCAATCTTCTTTGGTCAATTTTGTTTTCTTGATTCCTCTACTCTTTATAATATTTTCAGCAATTTCGAAATTCCTATAAATGGTTTCAAAAAGACTTAAAGCAGAGGAATAATCTTGATAGAGCTGTATGTAAGTACGTCCATATAACAAGTAATCTTTTATTCTAAGATCTTTGTTTTGTACCAATTCGTCAAGGTGGTACTTTGATTGTTCAGCATTGCCTAATGCATTATAAAGTTGTGAAATTTGATATTGCAACTCTTTTGAAAAAATTGGAATAACACTGCTAGGCATTTTATAATCCATATCTAAAAGAATTTGCTCAGCCTGATTATTTTCTCCATCTAAATAGTAAGCAATGGAAAGTCGAACATAGCCTGTTCTATAATTTTGAACTAGTCTACCTAATTGTGGATCAATGTATACACCTGGATTAGCTAGATTTCTAAATAAATAGCCCGACTGTTTCTCTTTAGATATATTTTTATAGAAATCTTTATTATTAGAAAAATTTTTGGTCCATTCTAAACCTGCAATACTATTTAAGTAATGATCATTCATCTTTTTCTTATTTAGAACTTCTTTATTGTTATTCATTAATCGATAGGCGAGGCCTTCCATTTGTAAATAATCATCTAGATTGAGCAAGCTTGTTGGGGAAACAGTTACAGCAAAATATATCGGTCTTTGCCAATCATTATCATTTATAATTCTTAATACCATTAAGTCTTGAACCCTTAGAGCAGCATTCAGATAAGTAGGAGCTAATTCCCACTCTATCCTCCCAGATGGATTATTCTCATCTTTAGGAACGTTCACTTCAATCAATTTTTTTTCCCACCTAATAAAATCAATCTTTTGAATTTCAGTATCTGACATTTGTATAAATTGTTTTTTGGAATTTTCTCGCTTCAGTTGTTCAATGTACCAAGGAGTATTAAGAAGGCTGAGGTTAACAATAGTAACATCGGTTCTGATTTTTTCAACGAACTGTAAGTACCATAGAGGAAAAGTGTCGTTGTCGCCGTTTGTAAATAAAATTGCGTTCTCATCACAGGTCTGCAAAATATTGTATGCCATATCCCATGCAATATAATTGCCTTTACGATTATGTTCGTCAAAATTGGCAATCAACATTCTCATTGGAATAATTAGTAATAAAAGAAATAGAAAGATATTTCTAAAGACTGATATTTCATTTTTTGATATAAAAAACTTTTTAATCAGTTCAATAAAAGCAGATATTCCAACGCTAATCCAGATAGCAAAAGTCATAAAGCTAGCAACATATGAATAATCTCTTTCGCGAGCTTGTGGATTTTCTTGATTCAAATAAATTGTTATTGCTACACCAGTCATTAAAAATAAAATCATTACTGCAGTGGCATCCAATTTGTTTCTTCTGAAATGAAAATATATGCCTAGCAAACCAAACAATAGTCCCAACGGCAGACCAAATTGAATCCAATTCACTCCATCTTCATTAGAATTTGCTCCCATAGAAGAAACTAAAGGATCTGTTGAATCACCCTTGCCAGCAAACTGCCATAAAAAGTATCTTATATACATTTTTTTAATTTGATAATTCCAAAAGAATTCCAATTGGTTGGGAACATTATAAAAAGCATACTGAATTTTTTGTTCAAAAGAAAATTCTTGTCCATTCAGCGGCAATCCTGATACTTCAACAGAAGATGGAATATCATCAAATTTTCTAGGAAGTATATTCATTTCGCCATATTGATCTCTATTCAAATAAGAAATTAAACTGGTAATTGTTTCAGGATTATTTTCGTCAATTGCAGGATTTTGTATGGATCTAATAATAATAGTAGAATAGGAAGAATAACCAATAAGGATTAATAAAATCCCAGAAAATAAAGCTGCCCATAAAATATTTTTTTTCTTAAGAAAATAATAAGTTAGAACACATAGAGAAAATAACAGAAAAAACATCCCAGAATATCCAGCGAATGACACTAGAAAAGGCACGCCCCTAACAACAAAATTTTGAAAGAAAAAGAAAATAACTATTGATAATAATGTGATATTGAAAATTTGTTTGAGTTTCGCATCCTGATTTCTAGAAAAATAAATCATCATTATAAGGAATGGGATTGTAAGCAAATTAAGTAAGTGGAGGCCAGTTGCTAATCCCATTAAATAAATGATAAAAATTATATAACGATTTTGATTATTAGTTCTTCCCTTTCTTGTTAACAAAAAAGATAAGTAAACTACTAATGCAGTAAACAAACCACTTAGAGCATAGACTTCCGTTTCGACTGAATTAAACCAATGACTGTGAGAGAATGCAAAAGTAAGAGATGCAATAAATGAAGATCCAAATTTTTCAATAATATTTTTACATCCTATACGATCTAGCACTTGGTTATTTATTAAAAATAAAACCGAAATTGTCAGAGAACTTGAAATCACCGATAGAAGATTTACACGATAAGCTATATCATGAGAAATGGGAATCAGTGAGAAAATCTTTCCTAATAACAAAAAAAGTGGGCTGCCTGGCGGATGAGGAATTCCCATAATATGGGAAGTAGCAATAAATTCGCCCGTATCCCAAAAAGAAACTGTGGGGGCCATTGTTATAAAATATATAACAAAAGAAATGACAAAAAGAATTGACGCTAAAACTACTTCAGAATTATTCTTCAGCAGATGAATCATTCTTGTCATTCAGATTTTCTTTAGATTTTTCAGACTTTTCAACTTCAATATAATTCATTTTTAATTCTGAAAGGACTTTAGATAAATAGACCTTTTCCTCTGCGCTCAAGCTAGCATCCATTCGATTTTTAATCATATCAAGCATATCAATCTGAATAGTAGCTGAAGTTAAATCAACAGAAGATTCTTTGGTCATAGGATTTTGAATTTTTCCTAAAGCAATCCAAATTCCATAAACAGTTTGAGATATCAAAGAGTCAAAAAGTTGTTTCTCTGTATATTGATTAGATTCCATTTTCCTTAATTAACTGTTATTTTTAGAAATAAATTTAAATAATCTTTTTCAAATTTATTCTTTATTAAACTATTTTCAGGGGATAAAAGTTTACTATCATTATCGATAATTTGAAAAGCAAATTTTCTCGCCTCTCTGATTATTGGTCCATCAGTAATTAAATCTGCAATTTTATACTTGATAAATCCACTTTGCCTCTCCCCAAAAAATTCTCCAGGACCTCTAATTTTTAGATCTTCATCAGCGATATGAAATCCATTTCTGGTTTGAGTAAGGATATCAAGTCGATTATTGGATTTATCAGAAAAGCTATCTGAGCATAAAATACAATGACTCTCTTTTTTCCCTCTTCCCACTCTCCCTCGAAGTTGATGAAGTTGACTTAATCCGAATCGTTCTGCATTGTTTATAAGCATGATTGTAGCATTGGGATTATCAATTCCTACTTCAACTACAGTGGTTGAAACTAAAATGTCAATTTTACCGTCCAAAAAATCTAACATGGTTTTATTTTTATCTTCATTGTTAATTTTTCCATGAAGCAAACCAACGTTGCAATTAGAAAAAAATTGTTTTTTAAGTTTTTCATAAGACTCAGTTGCAGCTTCTAGATCAGACTTTTCTGTTTCTTCAATTAAGGGGTAAACAATAATTGCTTGTTCTCCATTTTTGATTTTTTCTTTGATAAAATCATATGTTGTGGGCAAGTCGATATTTTGAATTTTAGTAGTAAAAATATCTGGTCTATTTTTTGGAAGTTCATCAATTAAAGAGATGTCCATATCTCCATTATATGTAATAGCTAAGGTTCTTGGAATCGGAGTAGCAGTCATTGATAAAAGATTAGGTATTTTAGACTTTTTAATTAATTGTTCTCTTTGATTAACTCCAAATCGATGTTGTTCATCAATAATTGTTAGTCCTAGCTTTTTAAAACTAACATTTTTTTGAAATAAGGCATGAGTTCCTACAACTATTTTACTTTCTCCACTAGCAATTTTTTTTAAAACTTCTTTTTTAGTTTGACTTTTTTGAGAACCTAGAAGTATTGAACAGTCAATATCCAACGGAGAAAAATATTTTTCAAAGTTTCTGAAAATTTGATTCGCAAGCAAATCCGTCGGAGCCATAATTGCAACCTGATAATCATTCTCAATCACTAAAGCCGAAACTAAGCATGCAACTATAGTCTTTCCCGAGCCAACATCTCCTTGAATCATTCTGTTCATTGGATGACTAGTGCAAAGATCTTCAATAATTTCATTAATAGAATTTTGTTGAGCATTTGTTAATTCAAAGGTTAATGATTTTTTTATTTTGTTAAGAATTGTCGATTTTTTTATTAATGGTAAGCATGTTGAATTCTGAATTTGTTTTTTTCTTGAAGCAAATAATAGTTGTATAAAAAAATGTTCATCAAATTTTAGCCGAGTAATTGCTGAATTAAGATGATCCATATTTTTAGTAAAATGAATGTTGCGCAAAGCAAAGTCTAAACTGCATAGCCCTAGACTATTTCTATATTCAGGCGTTAAAAAATCATCAATTTGTTCAACATCTTTAATACAGTTGGCAATAATTTTTCTAAGATTTCGACTATCTAATCCAACTTTCTTCAAATCGTCAGTGAGAGGATAAATTGGAATAATCAAACCCGTATTAACTGTAATTTCATTGGCATTAAGCTTGTCATATTCCGGATGAACTATTTGAAATTTATTTTGATAACTTGTAACCTTTCCATGGATAGCCAATAAATCATTTTCTTTTAATGATTGTCCAATATATTCAGCAGCATTAAACCACATTAAAGTCATACTTCCGGTATGATCTGCAAAATTTGCAATGACATAACTCTTTTTAAACCTTTTAACAAATCTAATAGATTTAATACGACCTATTACATTGACTTCATGATCAAGAGCAAGTGTGTCAATAGTGTGAGTGAGAGTTCGATCTACATGTCTTCTTGGAAAGTAATATAATAGATCTTCGACAGTTTGAATATTGAGTGATTCAAGCGCTTTTGCTCTTTTAGGACCAACGCCTTTTAAAAATTGGATTGGTATTTTAAATTTTTCTGAAGGAAGAACTTCCATCAAAAAAAGTTATTTCCATTCTTTTCTGTAAGAGTAAGTTACAGTTTCGGAAGAATTTGGTTTGATTTCTAGTGGGAAATAAATGGTGTTCGCGTCCTCTTTGATATACATTGAAGATGATTCTTTTACTACCCAATCACCAAAGATTTTTTCTTCTAATTTCACCTTAATAGATTGTCCAGAAGAGTTAGTAACTTGAAGAGAAATAGTTGATTCTTCGCTATTATTTTGTCTATCATAGTTTAATATTCGTCTTTTACCATTTATATCAAATGACTTCCCAGCGCTAATGATTGACAAAGAACCTTTGTGTGATGCTTTAAAAATATTTTTGCTTAACATGTTAATGCTTCCATCTTGGCTCTTTTCAAATAAATTAATAGTTCCTGATGGCAAAGGTACATTAAGATTATTTTCATCAGAATTCTGAAATAAAATTTCAACATTTAATGGTTCATCTTTTTGGTCTCTTTCATTATTTCTAAAAATATATCTTTTATCATAATTAATTACTTTTTTTGCTAACAGTGGAAAAAAGTTAGTTTCTAAAGATTTTAGATTTATATCATTTCCAATACTAAATGAATAATAGTCTCCAATAGTAACAGCATCTACAATTGGGGCATTTCTTGAAAGAGTATTAGAAATGTTTGACTGCGAATTAAAAGGAATCGTCCCTTCAATTACTGCAAGATCAACATTAAACAAGTTCATATTAGAATTATTAGTAATCTCTGCATTGATAGTTAATTCTGCTTTAGTTGAAATAGAATCTTGAAATGAATCTATAATAAGATTATAAATAGCATTCCAAGAAAAATCGGAAGAAATATAATGCACCTCTGCATCAGTGTTTTGATCAAAATCGGATTGAATTATCCACTCAATTTCAGGTGAAAATTTTTCAGAGACTTCGTTAGATTTTAAGCTAATGTATTCTAGATTATTCTTTGAATAAATTGTAAGACCTTTTGATGTTTTAAGCACTATTTCTTTATCATTATAATCCATTAATAAACCTTGAACTGAAGAGCCACTTAGGGGTTTTAATTCAATGGAAGCACCAATATTCTTTTGCATAAATCGTTGGATTCCAAACCTATTATGACTAATGTTTTGGGATAAGATTGTTGCCCCCTGAAGATCTAAAAACAATGAATTATCTATAACATTCTGTGATAAATTTGAAAATGTAATTGGATTTAAACCAGCTCTCAAAGATAAGGATAACGGCTCTTTAATTACTGAAAAGTTATCTTTGTAGATTACAATTTTCTTTCGCAAATCTTGTTCTTGAGAAACAAGCAGTGAACTTAATAGCAAGATAAGTAAATATTTTTTCATTTTAACACTTCAATATTAGAAATAATTTTTTTTCTTTCAATACTTAATTCAGAAAGTTTATTTTTTTCATTTTGAACAATATTTTCAGGTGCTTTTTCCATAAAAGAACTATTGGATAGTTTTTGATTGATATTATCAATAAAACCTTCAACTTGAAGCAACCTCTTTGATAGTTTCTTAATCTCTTCATCTTTATTTATGAGTTCATCTAGTGAAAGATAAATTTCACATTCTTTTAATATACCAATTGAAGAGTTATTTGGTTTTTCTAAATTTTTTTGAATAGTTAATTCACTGCATCCACTAAGACTGAGGATCAATTGTTTATTATTTTCAATCTGTGAAAGAATGTTATCATTCTTAGCATTAATGAAAATTTTTGCTTTTTTCGATGAAGCTAGATTTGATTCAGCCTTTAAATTTCGAATAGAAGATATAACTTCTTTAAATAAAACTACTTGCTTTGAATCATAGTGATAAAAAGTAATTTCTCTGGGCCAAGATTCAACAATAATGTCTTTTTCTTCTTTAGTTTTAAAAAATTGCCAAATCTCTTCAGTTAAAAAGGGGGTAATTGGGTGAAGTAATTTCAAAATATTTCTTAAAACTTTTCTGGCAACAAATAAAGTATTTTTCTTTTCTATTTCAGAGCCATGAGCAAATTTGTATTTTGCAATTTCAATATACCAATCACAATATTCATTCCAAGAGAAGTTATAAATTGTTTTTATTGCTTCATTAAACTGATATTTATCAAAAAAATCGTTTGACTTTTTTATTGTATTATCTAGCTCAGAAAGAATCCAATTATCAAATTTATCAAAATTGTCTGAATTAATATTATCAGAAGAATTTAAATCATTGTTCAACAGAATAAACCTTGAGGCATTCCAAATTTTGGTCATAAAATTTCTTCCTATCTCAATTCCTTTCTCAGAAAAGAAAACATCTGATCCTTGGGGAGCCATTAGCATAATAGAAAATCTGGTTGCATCTGTTCCATACTTTTCAAACAAGGTGATTGGATCTGGAGAATTGCCAAGAGATTTACTTAATTTTCGGCCTTTTTCATCGCGAAGTATGCTTGTGAAATAAACATCAGTAAATGGCTTTTCATTCATAAACTCAAAACCGGCAATTATCATTCTGGCGACCCAAAAGAAAATAATATCAGGTCCTGTTACCAAAGTATTTGTAGGATAATAAACTGTCGAATCATTTTCTGGCCATCCATGTACAGCAAACGGCCATAGCCATGAACTGAACCAAGTATCTAAAACATCCGGGTCTTGCTCCCAATTATTAATATCATCTGGCGCAGAGGAAGAAACAAACCAGTTTTTAGGATCGGTACGATCGGCATTTTTTTTGTACCAAACTGGAATCTGGTGCCCCCAATAAAGCTGTCTACTTATACACCAGTCTTGAATGTTTTCCATCCAATGATTATAAGTTTTGACCCAATGATTTGGATAAAAATTGATTTCATTTTTTTTAACTGCTTTGATTGCTGGCTTAGCTAAATCTTCCATTTTTAAAAACCATTGTTCTGATAAATAGTATTCAATTGGAACATTTCCTCTTTCTGAAAAACCAACTTTGTGAAGATAATTCTCTTCTTTTATCAGATGATTTATTTCTTTTAGATCGGATACTATTTGCTTTCTGGCCTTTTCTCTGGACATTCCTCTATACTTTTCAGGCGCTTTATCACTGATGGAACTATCTGCGTTCATGATATTGATCATTTCAAGATTATGTTTAATACCTACTTGATAATCATTTAAATCATGTGCAGGAGTAATCTTTACACAACCAGTTCCAAATTCAGGATCTACCATTTCATCAGCAATAATTGGAATACTTCTTCCAACCAGAGGCAGTTTTGCAGTTTTGCCTATAAGATCTTTATATCTTTGATCATTAGGGTTCACTGCGATAGCAGTATCACCTAACATGGTTTCTGGTCTAGTTGTCGCAATCTCTATAAATGTATCAGAGTTAATAATAGGATATTTTATGTACCACAGATGTCCATTTATCTCTTTAAACATAACCTCTTCGTCGCTTAAAGCAGTCTGTGATTTCGGGCACCAGTTTACCAACTTACTTCCCTTATAAATCAATCCTTTCTTATATAACATAACAAAAGACTCTAAAACTGCTTTAGAATAACCTTCATCCATAGTAAAACTGGTTTTATCCCAATCACACGAACATCCTAATTTTTGTAATTGCTTAATGATAGTTCCGCCATATTCTTCTTTCCATTCCCATGCATACCTTAAAAATTCTTCTCTAGTTAAATCTTTTTTATTGATTCCCTGCTCTTCAAGCATCTTAGCTACTTTTGATTCAGTAGCAATTGAAGCATGGTCCGTACCTGGTATCCAACATGCATTCTTGCCTTCCATTCTAGCTTTTCTAATAAGTATATCTTGAATAGTATTATTTAATACATGACCCATGTGAAGCTTGCCAGTAACGTTTGGTGGAGGGATTACAATAGTAAAATGGTCTTGAGATTCATTATTTGAAAAATAATTATTTTTCAACCAATGTTGATACCATTTAGACTCAATATCAGCTGGCTTATGATTTTTATCCAGTTGTTTCATTTAAATATTTTTTTAGTTGATTAATTAATTCATTCGCTTCATGATTAGAAGGAGCTTCAGCAAATATTCTTATAATTGGCTCAGTATTGGATTTTCTTATATGTATCCATTTATTTTTCCAAACGAATTTTATACCATCTTGCTTGTTAATTTCGTCACAATCAAAAACAGTTTCAAGTCCATCGAAATTAATATTCTCTCTAATATTGATTTTATCCTTAAGAAAAATGTAACTAGGGATTGATGAAATAATTTGTTCTAAAGATTGCTTAGTCGAAGACAGCAATGATAATATCATAACTATTGCAACTAAAGAATCTCTTCCTAAATGCACTTGCTTAGCAATAACTCCTCCATTGCCCTCACCACCAATTTCAACTCCCAATTCTATCATTTTAGAAACAACATGAGCTTCACCGATTTTAGTTCTTATAGATTTTTGTCCAAGATTATCAATCATCATTGATGTCGATAGATTAGTTACAATAGGAGTTTTAGTGTAATTCAAATAGTTTTTATAAGCTAAAACTAATGTGTATTCTTCGCCAATAGCTCTGCCGCTATTTGATACAATGGATAGTCTATCTCCATCAGGGTCTGTAGCAAATCCAATATCAGCTTTAGTTCCAAGTACTTTTCTCTCAAGCTGTTTAAGGTTTTCTGCTAACGGTTCTGGAATGCGCTTAAATTCTCCGTCACCTTTACAATTTATTTCTATTACTTCACAACCTAATTTTCTACAAAGGTCTGGTAAAATTTTTGATCCAGCACCATTTACTGCATCAATTACAACTTTAAATTTTTTGGCCTGAATAGCTTTAAGATTAATACAATCCAATTTAAGAATTTTTCTAATGTGGTCTAGATTAGCTAATTTATATTCTATGACTTTGCCAGATTTAACTTTTTTCATAAAAAAATTATTTTGATCTGCCAACAAAAATAAATTCTCACACTGCTCTGGAGATAAAAAAGTTCCATCTTTTTGTAAAAATTTTATGCCATTATACTCGCTGGGATTATGACTAGCGGTAATGATTATTCCACCGTCATACTTTTTTTTCTCAGTTATAATTTGAATGGTCGGGGTCGTTGCCAGACCACAGTTATCAACATCAATCCCACGATTAGTTAGTGAATCGATTGCCCAATTAACCATATTATTCCCTGAAGGTCTTCCATCCATCCCTATCGCGCATGTTTTAATTTTTTGAGAAAAAATAAAGGCAGAAATATATTTGTCTATAATTTCTGGAGAAAAATCATTTTCAGCTATTCCTCTAAGACCAGAAGCACTTCTAATTAACATAGTCAGAGATTAGAGCTTTTTTTTGAGAATTGAAAGTTGAGAAGAAATTTACTAATTACTATATTTTGCAAGACGAACTGCTCTACGAACGGTTTGCTTTTTAGCAGTTCTTTTTGTGACGCTTGGCTTTTCGTAAAAAGCTTTTCTTTTGACATCTTTTAAAACACCAGAACGCTCCCACTTCTTTTTAAAGCGTCTAAGTGCTTTTTCAAGCGATTCATTATCTTTAATATTTACTTGTACCATTGTGCGCAAACTTAGTGAAAAAAACTCAAAATGCAAATTAATCTGATTATAATATTTTTGATAAAAAAACATAGTCTTCTACCACGAGATCTTCTGGTCTTTTGGTAAAATCAAATTCTTGCAAATTTTTCTCATTCAATAATGTTGACAAAGAATTTCGTAACATTTTTCTTCGTTGATTAAATGCTAATCGAGCAATTTGACTATATTTTTTTAAATCTATGTCTGGAGAGATTTCCCTTTTTTCAATCTCAATAAATGAAGAATTAACCTTTGGTCTTGGGTGGAAAACATTTGGAGAGATATTAAAACACCTCCTAATATTGAAGTGCAAATTAGTCATTACAGTTATTCTGCTATAAGTTTTGGTTTTAGGTTTTGCTATTAATCTATCGGCATATTCTTTTTGCACCATTAAATAAGACTTCTTCCAATTAGTTTTATAATCAATAAGCCAAAAAATGATTGGAGAAGTAATATTATAAGGGATATTTCCAATAACAACTAGTTGTCCATTTGGTGATAATTCTTTCAGATTTGTGTTTAGAATATCTTGATTTAGTATCTTAATATCATTGAATAATTGGTTCTCCTTCAATGAAGAAATTAATTCGGGGTCGATTTCAACTAATGTTAAATTTTTAGTTTTTTGTAAAATTTTCTCTGATAATGCACCCTGTCCAGGACCAATTTCAAGAACTTCATCATTTTTTTTAATAGAGCAGGTATTACAGATTTTTTCTAATAGATTTTGATCTACTAAAAAATTTTGGCCCCATTTTTTTTTCGCATAAATCATGAAAGGTTAAAGAAGGTTTTGGCATTTCTCGTAGTATGTATTTCAATTTCATCAAGACTAACCCCATGTAGTTCTGCAGCTTTTTGTGCGATGATTTTAAGATATTTAGGTTCATTCTTTTCTCCTCTAAATGGATGTGGAGCTAAAAATGGACAGTCTGTCTCTAAAACAAATTGATTCAAAGTCAATGCCATGAGAGCATCATGATTAGAGGCATTTTTAAAAGTAATATTTCCAGAAAAAGAAATTAATATTCCTAAATCGCATAATTTTTTTGCAAAACTTAAATTACTGGAAAAGCAGTGCGCTAAAGCTCTATGAAATGAGTTATTTTTTAAAATCTCATAAATTTCGCTATCTGCATCTCGATTATGAAATACAATTGGTAAACTTAAATCATAGGCTAATTCCATTTGCTCAATCATGACTTTATTTTGAATCTTTTGCGGGGATAAATTTCTGAAATGATCAATGCCAATTTCGCCAATTGCAACGACTTTTTTTGAAGATTTTGCTAGTTGAAATAGTTCATGAAGATAGTTAAGTGGCACATCATTGGAGTCATGTGGATGGATTCCAACTGTTGCATAGATGTTTTCGAAATTTTCAGCAATTTTAATACACTCTTCCGAACTTTTTAAATCGGTTCCAATACAAATCATTTGTAAAATCCCATTATCTTTTGCTTGTAATATGACGTCCTCAATTCTGTCCTTCATGGAATCATAATAAAGATGTGTATGAGTATCAATTAGCATTAATCAACAATTCTTGGGAAAACAACGACTTGTTCTCGTATTAATGTCTCTGGCTGTAAACTACCCCAGTCTAACCCCAAATCTTCAGAAGATAATATCTGGAGAATTTCCATACATTTTCTGGGCATAACTGGCTCAAGAATTTTTGTGGAAACTCTAATGGCTTCTATGCTATGATATAATGTATCTCCAGCGAGCTCTAAATCAGACTTAGCCTGTTTCCAAGGAACGTTTTCTTCTAAAAAGATATTAATAGATTGAATAAAATCAGTCACTTCTTTCAAAAGAGTGTGTATTTCAAAATTTTTTATTCTCTTTTCTAGCAATATGTTTGAGTATTTTTCTTTTAAAATACTATCCTGGTTTACAAATTTTGGAATCTTAGAATCATAAAATTTAGAAATTAATTTAGTCACTCTACTCACTAAATTTCCTAAATCGTTGGCTAAATCAGCGTTATACCTCTTAATAAATAATTCTTCTGAAAAATTGGCATCTTGCCCTAAAACCATCTCACGCATTAAAAAATAACGTACGGAATCGGGACCGTATTTATCTATTAAAGAAAGTGGGTTAATCACGTTACCCAGAGATTTGCTCATTTTTTCTTGATCAGTTAACCACCAACCATGTGCAAAAATAGATCCAGGAAGGGGTAACCCTAATGACATAAGCATTGTAGGCCAATAAACAGCATGGGTAGTCAATATATCTTTCCCAATTAAATGTATATCAGCTGGCCATCGATGGTAAAAAAAGTCATCTTCTTTAGAAAATTTTATAGAAGAGATATAGTTTATGAGAGCATCAAACCAAACATATGTTACATAGTCTTTATCAAATGGAATTTCAATCCCCCAATTTAATCTCGATTTGGGTCTTGAGATACAAAGATCATTAAGTTCTTGGTTTTCTAAAAAACCCAACACTTCGTTCTTTCTAGTTTGAGGTAAAATTTTTAATTCATCACTTTTAATGGCTTGAATCAATTTTTGTTGATATTTACTCATTTTAAAAAAATAATTCTTTTCTTTAATTTTTTTTACCTCTCGAAAATTTCCACTTTCAAATTCCTTTTCAGTAATGAATCTTTCTTCAGATACTGAGTACAAACCTTCGTATTCATCAAAGTAAATATCACCACTTTCATTAACTTTAGTAAGAATATGCTGAACAACTTCTATGTGTCTGGATTCAGTTGTTCTTATGAAATCAGTAAATTGAATTCCAAGTTTACCCCAAAGCTTTATAAACTCTGGTGCCATCTTATCACAATGTTCTTGCGGTGAAATATTTTTTAAATCGGCTGATTGCTGAACCTTAAGTCCGTGCTCATCTAACCCTGTTAAAAAAAATGAATTATTTCCTATTAATTTATTATAGCGATGAATTACATCTGCCAGGACTGTTGTATAGGCATGCCCAATATGAGGCTTATCATTAACGTAATAAATTGGTGTTGTTATATAAAAATCTTTCATTTTAAATCAATTTCTTAAGCTGAATTATTAAATTCAATACGACATTTTTGACTGATAAATTTGAATTTAATTCTTCTTTAAATTTTTCTAAATGTTTAATTATTTCTAAATATTTATCTTCTGAAAAAATGTTTTTCAATTTTAGTTGCATCTTTTGAAAATTATTAAAGCTCAAATTATTCTTTAAATATTTTGATTTTTCCAAGTATACAAACCATGAAATTATCAAATTAATTTCATAAATAATTTCTCCCATTCCTAAAGTATTTCTAGATATCATTTTTTGATAAAATTCTGATAGATATGGTTCATTATAATTTGATAATTGATAGAATGAATCAACTAATTCTATATAATCTCTATCACTTAAACTTTTTAATAGGGATAGGTTGCTCTGATTATTTTGAGCTAATAATGAAAATTCTTCGAATGTAAAAGAAGGATGATTTAATTGACTGAAAAAATCTCTTAAATGAGGCTTAGGAATTTTAACCTGAATACACCTTGACACAATAGTAGAAGGCACCTGTTGAATATTTTTACAAATCAAAATAAAAGTTGTATTTGCCGGTGGTTCTTCAAGAATTTTTAATAAAGAATTGGCAGATTCTTTAGATCCTGAGGATAATAATTCAGCATTATAAATAAAAACCACTTTTCTTGATTCGGATTTAAAATAAATTTGCTGTTTGATATTTCTGATTGATTCAATAGGAAAACTATTGCTCAATTCATTTTGAATATCCTGATTTAAAAGTTTGGCATTAACAAGCTGTTTCCAAAAATTATAATTTTCTTCATTATTGATTTTACCGCTAAAAAATTTTTTATAAAATTCCGACGAGAGAGGAAATAGAAAAAAAATATTTGGATTATTGGTAAAATTAAATCTATCGATTCCAGATAGCTTTTCTGCAAAATCTAACGCTAAGAGATTCTTTCCAATTCCATCTGATCCATATAAGAGATAAGCTGAACCAATATTGTTTGATTGAATTGTTTGCTGAAAAAAATCAGTTAATTTAGGTTGTAATTCTTCAATTTTTATCATTGAGCCATGTCATTGGGTTAAGTTTTTTATTTTGCCCCCATACTTCAAAATGAAAATTTTTATTCAAACTAACATATCCAATTATTTCTCCTTCGGAAACTGAACTGTTTTCATTGACGTTTAAATTTTGAAGATGAGTGTACACAGTATAAAAATCATTATTATGATCAATAATCACCGTAGTGCCATACCCCGATATAAAAGTAATCACAGTAACTACTCCATCAAAAACTACCCTCACTGCTTCTGATGGTCTAGTTTCAAAATCAATACCAGGATTATCAATAGTGGTTTTTAATTCGGGATTCCATTTGGGCCCAAATCCTTTAACAACCTTGCCTTCCACTGGCCAAGAAAGCTTTCCTTGATTTTTAGAGAAACTTCCCTCAATTTTTTGATATTGAACTAGTTGTTTTTCTTCATATTTTTTCTTATCTGCAATAATCTTTAGTCTCAGGTTTTCCAGTTCATTGATTTGCTTTTTCTGATCATTAATTCTATTTTGAATTTCTTGCTTATTTTTTTCAATGGTTCTTATGATTTTCCTTTGTTTTTCTCTGAGTTGAGCTAGATTCTGAATCTCTTTTCCCCGATCAACCTTATCAGCTTTGGTTTTCGCAAGCGTTGAAGAAATCTCATTCTCTTTCGTAAAATTATACTGCTGTGTGATGGAAAGTTGATTAAGGTTTTGTCTATTTATTTCTGAAAGAACAGAAAAATACTTGATACGATAAAACATCTGGTTGATTGACTTTGAAGAGAAAAGATAATCATTCAAAGTTCGATCATTTTTATACAAATGAATAGATTGCTTAGCGTAATCACTTTTGATTTTTTCAATTTTAAGATTATTACGTTGTACTGCTTGATTCAAGTTTGTTAGTTGTTTTTCATAGAGATTAATTTTTTGGTCGTAAGCATTGATCAATGAAACAGAATTATTGATTGATTTTTGCAAAGAGACTAAGCGATCCTCTTCTTTCACAGATTTAGTTTCTAAAGATTTTAATTCAGAACTATTTTTTTGAAGTTCTTTTTTTAAAATTGAAATTTGATTTTCAGCACTCAATATTTCTTTGTCATAATTTTCCTGCTGGGAAAAAAGAAGTGTAGTGAAGATAATAATTGATATAATTTTCTTTCTAATCATGTTTGAAAAAATAAAACTAAATTAATAAATGATTTATCAAAAATTACAAAAACTATTCTTCAGTTTAACTTTTTTATCAACATTTGCTTTTTCCCAAAGTATTGTTATGAGCAAAGAATGTGAAAATGATTTATTGGCATTAAACGAACTTATTGAGGAAGCCAAAAATTTTTCAATATCTATAAAAATTTTTGAAGAATTTCAAGATTTAGATATTTCATTGAACCCTATTATTATCCTTTGCAGTAATAGATATCTCAAATTTTCTGATGAAGATTTTATCCAACTTCGTAAGCGCTTAATCAACAATGGACTCTTGATTATTTATAATATTGAATCAGAATACACATTTTTAAATTTCATTTCTAAAATCTTTCCGGATCAAACAGTTACAAATGAATTTCCTTCAAACAATTGGTTAAAAGCAGATTTAATTCCTAATGAAAAAGATATTTTATCAATAAAACTAAATGAAAAAGTTGTTCTTTTGGGACTGAAAACACTTAATTCTGAAAAAAATAACCAATTAAAAATTATTGGAAATTTTATTTTTGATTATTTCCTTCTTTAGCTTTTTGTGCCAAAAACACCCTATCTCTAAGTTCTGAAGTGCTATATCCGTGATCTCTAGTATTAAAAATGCATTTGATCGGTAAATCATATCCAGTAAAATTGGTTCCTTGATGATCAGCCCCCAGGATGCGAACATCGGGTTTGATATCTAATAAAACCTGAATCAAATCTGCCTCAGTATCATAGGGAATAACCCGATCAACGTATTTTATTGATTCAACAATTCCAATTCTTTCTTTGTGCGATTGAATAGGAGCATTCTTTGCCGGACGATCTATGGAAGGGTCTGACTGAACTCCAACAATTAAAAAATCACAATATTCTTTACACTCTTTAAACATTAAAACGTGCCCATAATGACATAAATCAAATGATCCAAAAGTGATTCCAACAATTTTATTTTCTTTGTTCATTTTTTACCTCATCCCAAATTTTTAATAATCTTTCTAGGCTATTATTTTCAGAATTCGCTATTTTCTTTTCAAGACTAAAAAATCTATTATAAAATTTTTGATTTGATTTTATTAATGCCACCTCTGCAGAAAGATTTTTAAATCTTGCTAAATTTACTATTGCAGTCAAAATATCTCCAATCTCTTCTTCGATATTAATGATATCATTATTTTTAATTGCATTTTTTAGTTCAATGAATTCTTCTTCGACTTTCCCTAATACTTGATCAAAATTGTCCCATTCAAACCCAATAGAAGCTGATTTTTCTTGATATCGTTGAGAAACTAATAAAGCGGGTAAATCTTTTGGTACGCCATCAAGAACGGACTTACGTTTTTTTTCAACTTTTTTTTGAATCTCCCAATTTTTTTTATCTGATTGCTCTTTATTAAAGATTTCAGGGTGTCTTGAAACTAATTTTTGGTTAATCTGGTTGGCTATTGTGCTTAAATCACCTTCATTTTTTTCCTCCAAAAGCACAGCTTGAAAAATAATATGTAGTAATAAATC
>sequence03
AAAAATTAATTGAAACTTTTCAAAAAAATGAAATTGTTTTAGCAGCAGGTCCAGCGGGAACTGGTAAAACATTTTTGACAGTAGCATATGCATTATCCTTGCTAGAAAAAAGAGAAATAGATAAAGTTATATTTTGTCGCCCTGCAGTTGAAGCAGGAGAAAATCTAGGATTTTTACCGGGGAACCTTAAAGAAAAAATTGATCCATATTTAGGGCCTCTTTATGATTCTTTAAATGATTTATTACCTAAAAATAAAATTCAGAATTTTCTAGATAACGGAATAATTGAAATTATTCCTTTAGCTTACATGCGTGGTAGAACAATTAATAGAGCAGTAATGATTCTTGATGAAGCCCAGAATGCATCAAATATTCAAATGAAAATGTTTTTAACTAGACTTGGTGTAGATTCCAGAGCTATAGTTACTGGGGATATTTCTCAAATAGATTTACCATCTAAAAACCATTCTGGTTTAGTTGATATCTTACATATTCTTAAAAATATTAAAGGAATCGGTACCGTTGAACTAGATCAAACAGATATTGCTAGACATCATTTAGTCAAAAAAATTATTTCTGCATATTCCAATTCAGAGAAGGAGAAGAATAAATGAATGAAATATTTGAAAAAATAAGCTCTTATGGTCATGAGCAAGTAGTTTATTGTAATGATAAAAATACAGGATTGAAAGCTATCATCGCAATACATAACACCATTCTTGGACCTTCCCTTGGTGGATGTAGAATGTACCCATACCAAAGTGATTCAGCAGCATTGGAAGATGTTCTGCGATTATCTAAGGGGATGACTTATAAAGCATCAATTTCTAATTTAAATCTTGGGGGTGGCAAAGCAGTTATCATTGGAGATCCAAAAAAGGTTAAAACTAGTGAATTGTTAAAATCTTTTGGACGTTTTGTTGATACTTTGAATGGAAGATATATTACTGCTGAAGATGTTGGGATGACAGTTGAAGATATGGAGCATATTAGAAGTCAAACTAAACATGTTACTGGGATTACACAGTCTTTAGGTGGAAGTGGGGATCCTTCAATTTTTACTGCTCTAGGTGTTTTCATTGGAATGAAAGCTGCCTTGAAAAAAAAGTATCAGACAGAATCATTTGATAATTTAAAAGTTGGCATTCAAGGTTTTGGAAAAGTAGGATATTATCTTTCAAAACATTTGTTCGAAGCAGGCGCTAAAATATATGGTTTTGATGTTGATCAAGAAAGATTGAGTATTGTTTGTAAAGAATTTGGAGTTACACCCATTCCTAATGATGATTTAATGAACTTAGATTTAGATATATTTTCTCCTTGTGCCCTTGGTGGAATTATTAACCCTCAAACCATACAAAGCTTAAAATGTCAAATCATTGCTGGTGCAGCAAACAATCAATTACTTGATGAAAAAAGAGAATCAAAAACAATAAACGACAGAAATATTTTATATGTTCCAGATTATGTTATCAATGCTGGTGGTTTGATGAATGTTGCAAATGAGTTAACTGGTTATGACTCATCAAAAGCAACCAAACAAGTTGAAGGTATTTACGATACATTGCTAGAAATCTTTAATTTATCTGAACATCAAAATCTATCAACAATTGAGGCAGCAAATTTAATAGCTGAAAAGCGAATTCAAGACTCAAAATAATTTCAAAATATGAAGCAACTTAGAAAACAGGCAAGAGAAGCCGTTTTGCAGGCGCTTTATGCTAAAAGTCTGTCTGAAGAAGATTCTAAAAAAGTGCTTATAGATATTAACTTAAGATATGAATTTGATGAGCCTACAAAAGAATTTGTTCATGATTTATTTTATGCCACAATTGAAAATGAACAATCAATTAGCTCTCAAATTGAGTTACATTTAAAAAATTGGAGCATTGAAAGAATTAATTTGATTGATAAAATAATTCTACAAATGTCTTTAGCAGAGATGATTCATTTAAAGCAATATGATATTTCTCATAAAATTACCATAAGTACAGCCATTGAGAATGCTAAAAAATTTAGTTCCGATGAAAGTATTGCTTTTGTTAATGGAATTTTAGACTCAATTTTTAAAAAACAATAAATATGTCCATTTTATCAAAAATATTCGGCACAAAGTCAGATCGAGAAATAAAAAAAATTTTACCTCTGGTTAAAAAAATCAATGATTTTTATAATTCAATTGAAAATTATACTGAAAAAGATCTCCAAAATCGAACTCGGGAAATTAAGGAAGAAATAAGTCAAAAAATCATTTCTTCAACGGATGAGAAAGAAGTTCTAGACTCATATATCATTGAAACATTTGCGATGGTTAAACATGCATGTAGACTCTTAGTAGGAAAAGAATGGGAAGTTGTTGGTCAGGTGATTAAATGGGAAATGATACCATACGATGAACAGATTATTGGGGGAGTAGTTCTCCATCAAGGTAAGATTGCTGAAATGAAGACAGGAGAAGGGAAAACCTTAGTTGCAACTTTTCCTATTTATCTAAATGCTCTTACAGGAAATGGAGTCCACGTTATTACAGTTAATGATTATCTAGCAAAAAGAGACGCACAGTGGATGGGTAGGGTTTTTGAAACCCTTGGATTAAATGTAGGGTTTATTATTAATTCTATGAATCCATCTGAAAGAAAAATTTCATATAGCTCTGATATCACTTATGGAACAAATAATGAGTTTGGTTTTGATTATCTAAGAGATAATATGTCTGTCGATTCTGAACATTTAGTTCAAAGAAAACATAATTTTGCAATCGTTGATGAAGTTGATAGTGTTTTAATTGATGAAGCAAGGACTCCTTTAATAATATCTGGACCAGTTGAGTCGCAAATTGATCAATCCTATATCGAGCTGAGACCCTCTGTACAATCCCTAGTAAGAAGGCAAGAAAGTTTAGTTAATGATCTATTAAATGAAGCAAAATCTTTACTGAAAAAAGAAGAAAAATCAAATGAGGATAAATTCCAAATTGGACTCTTACTTTTGAAAGCAAAAAAGGGCTTACCAAAAAATGAAAGTTTACAATTGTTATTTCAAACCCCAGGAAATTTGAAGTTAATGAATAGCGTCGAATCGCAGTTTATCGCTGAGAAAAAAGTTCATGAACTTGACGAAGATTTATTGTTTGTTATCGATGAGCAAGCCAATTCCGTTGATTTGTCAGATAAAGGAAGGGAGTTTTTATCTCCAAACAGTCCAGAATCATTTACAATTCCAAATTTAGGAGAAATACTTTCAGAAATTGATGAAATGCATATTGATGAAAATGATAAGTTACTTAAAAAGGAGGAAGCCTATTCATTGCATTCAAATAGAAGTTCAAGGATACATCACCTCCAACAGCTTTTGAAAGCTTTTACTTTATTCCAAAAAGATGTTGAGTATGTTGTTCAAAATGGACAAGTGTTAATTGTTGATGAGTTTACAGGTCGAGTCCTTCCAGGAAGAAGATTTAGTGGAGGTCTTCATCAAGCTCTCGAATCAAAAGAAAATGTAAAGATTGAAAATGAAACGCAAACGCTAGCTTCCATCACCCTTCAAAATTATTTTAGAATGTATAATAAATTAGCTGGAATGACAGGAACCGCTGAAACCGAAGCAGCAGAGTTTGAAAAAATCTATAAATTAGAAGTTACAGTTATTCCTACGCATAAGCCTGTTGCTCGCAAAGATTTTGATGATGTTATTTACAAATCGATGCAGGCAAAATACCAAGCAGTAATCAATGAGGTGATTTCTTATTATAAATCAGGGCAACCAGTATTAATCGGAACAGTCTCCGTTGATGTTTCAGAACTTTTATCTAAAATGTTAAAAAAGAACAGCATTCCTCATAATGTTCTCAATGCAAAACAACATCAAAGAGAAGCTGAAATAGTTGCTCAAGCCGGTTTAAAAAAATCAGTAACTATTGCTACAAACATGGCAGGTAGAGGAACCGATATAAAACTAGGACCTGGTGTTGAAGAAATTGGTGGGTTACATATTATTGGTACTGCTAGACATGAATCTAGAAGAATTGACTTACAATTGATGGGTAGAGCAGGAAGACAGGGTGATAAGGGGTCTTCTAGATTTTATATCTCTCTTGAGGATGATCTAATGAGATTATTCAATATGGATAAACTGGCAACTTATATGGATAGGTTATCAATTGACGAAAATCAAGAACTAAGCGCTGGAATGCTTAATCGTGGCGTCAGAAACGCTCAACAAAAGGTTGAAGAAAGAAATTTTGCTATAAGAAAGCACTTACTAGAATATGACGATGTTCTAAACCAACATAGAACAATTATTTATGAACTAAGAAATAAAGCTCTTAAAGAAGATTCGATTAAGCCCACTTTTGATGAATTTATTGAAGATTATCTTTTAGATGTTTTTTATAAATATGAAGACATAAAAGCTGAAGAGTTGGAATGGAATGATATAAAGAACAGATTAAAAACTAACTTAATGTTAGAAATTGATGAAAAGGAGTTTCGTTCTATATCAAACATTGATACGATTGTTAACAAGTGCTTATCGATGGCATTAGATAACTATTCACAAAAGGAAGCAATCATTCCCGAAGAAATATTGAGGAAAGTTGAGAAGTTTATATTTTTAAAAACAATTGATGAAAAGTGGAGAAATCATTTACAGGCAATGGACCAATTAAGAGAAGGAATAGGGCTAAGAGCATATGGTCAAAAAAATCCTTTAATTGAATATAAATCAGAATCATTTATTTTTTTTCAGGAGCTACTTTTAAGTTTAAAAGCATCTATCATTCAGAGAATCTTTCTTGCTCAAATTAATGCAGAAAATCAACCTCAAGTTTTATCTCCAAAGAAAGTTCAATTATCACGTTCTGAAAATTTCATCAACTCACCCCAAAATAATGGAGATTTAAATGAAACTTCCGATGATAAAATAGGAAGAAATTCAAAAATTATTGTTATCTCACCATCTGGAGAGAAAAAAGAAATTAAATATAAAAAATTAGATGTATATTTATCTCAAGGGTATAAACGTGTCTAAAAAAAATCTTAAATTTGACTCCAGAATCGTTCATGTTGGTAATAAAATTGATGAAACATCTTCTACAGTAACCCCGCTACATCTCACTTCAACCTTTAAACAGAAAAGGTTTGAAAGCACTGAGCAATTTGTATACGCTCGTACAGGGAATCCAACTTTGGCTGCATTAGAAGAAAGTTTAGCTAATCTAGAAGGTGCAGACCATGCTTATGGATTTAGCTCCGGGATGGCAGCAATGACAGCTATTTTTTTAATGTACAAACCAACTGATCATATTCTTATATCTCGAAATGTTTATGGAGGGGTTTTTAGATTAGTAACAAGAGTTTTGAATGATACAGGAGTAGAATACGATTTTATTGATACATCCGATTTAAATTGTGTTAAAAAATCAATCAAAAAGAATACAAAACATATACACCTAGAATCCCCGAGTAACCCTTTATTAGAATTAGCTGATATTGAAGCCATTTCAAGAATAGCTAAAGAAAACAATTGCGTTTTAAGCGTCGACAATACGTTCATGAGTCCATATGGTCAACAACCTCTAAAATTAGGAGCAGATATTGTTATGCACAGTACCACTAAATTTCTTGGAGGCCATTCAGATCTAATTGGTGGAGCTTTAATGTTAAATGGAGATCAAATAAATTCAAAGATTCAACTAATTCAAAATACCGCTGGTTCTCTGCAAAGTTCCTTTGATGCCTGGTTATTACTTAGATCAATTAAAACCCTTACAGTTAGAGTTGAAAGACAGTTTAGAAACTCATTGATAATTGCTGAGTGGTTAGAAAAACAAAAGAATATTACAAAAGTTATCTACCCAGGTTTATCTTCGCACCCTCAGCATAGTTTAGCATGTAAACAACAACTAGATCCTAATAATAAGCCAGTTTTTGGTTCAATGATTTCTTTCGAACTCACTCAAAAGAAAGATATTAATAAATTTGCAAAGAATTTAAATCTTTTAACACTTGCAGAAAGTTTGGGAGGAATTAAATCTTTAATTTCTTGTCCTTATTCTATGACTCACGCTTCTGTTCCAGTTAAAGAAAAACAAAGACTAGGTATTAGTAAAAATCTATTAAGATTATCAATTGGAATCGAAGATCCTGATGACATAATTTCTGAGATTGATTTTGCAATAAATCATTGTTAAAAGTTTATTCAATAATTATTTATATTCTGAGTTAATGCCGTGGTGGCGGAATTGGTAGACGCGCTGGTCTTAGGAACCAGTATCGTAAGATGTGAAGGTTCGAGTCCTTTCCACGGTACAGATGGAACTCATAATTTTAGGAATAATAATTATTGGAGCTTTGGCATTATTTGTTTCTGAGCTTTTCCCAATTGATGTTACAGCGCTTTTAGTACTTGGTCTTTTATTAATATTTGGTTTAGTAACCCCTGCTGAAGGATTATCTGGTTTTTCAAACCCAGCAGTTATAACAATTGCCTGTTTATTTGTTTTAAGTTATTCGTTGCAAAAATCTCATATTTTGGAATACTTGATTGTTAAAATTAATACTTTAATCGACAAGTCTAGAATATTAGGTGTTATTTCTTATTTATTCTTTATTGGACTTTCCTCGGCAGTTGTTAATAATACTGCTATTGTTGCAATATTTATGCCAATTACAATTCGTTTATCTGAAAAATATAATATTAGCCCATCAAAAGTTTTAATCCCCTTAAGTTATGCGGCTATTTTGGGTGGAACTTTAACACTGGTGGGAACATCCACAAACTTAATTGTTAATTCTATTTTGGTCGATTCAACCGGCGGCAGTGTATCTTTAGGTATGCTAGAATTTGCAAAATTTGGTATTATTAAATTTCTTGTTGGTTTAATCTATATTTTTACTATTGGATATAAACTATTGCCAAATCGAGTAAACAAGTCATCATCAATTGACAATTATAGTCTCGATGGATACTTAACTGAATTTAAAGTCACTGATAAATCTCCAATTTTAGGAAAGACATTATTCGATAGAAAAATTAACCAAAACTATGATGTAATAGTTCTTGATGTTATACGAGACGGTAAAATTATTAATCAAAATCTTAGAGGGTTACTTTTACAAGTTGATGATATTCTTTTTGTTAAAGGGTCTTTTGAAAATTTTCAAAAAATGAAAGAAGTTGAAAGTTTAAATTTATTGGCAGATGAGAAGTTGACTCAAGAAGAACTCGAGCAAGATGACAATATTATTGCAGAATGTCTAGTCACGGATAATTCTTCTATAATCGGCAAGACTCTTCAAGATTCAAATTTTAGAAGAACATTTGGTTCTTTTGTATTAGCAATTAAAAGAGACGGTGAGATAATTCGAAGAAAAATTAGCCAGTTTATTCTTAAGCCATTTGATACATTACTTGTTTACGGACCTAAAGATAAGATTATGGATTTAGGCGAGAAAGAAGGTTTCATTGTATTAGGTAAAGTCGATGCAACACTTGATATAAATCCATTAAGATGGCTTAGCTTAATTACAATCTTATTTTCAGTCACATTAGCTATTATCGGTTTACTTAAAATCGAAGTTGGAGTGTTGTTAAGTGTAATTATCCTTTTTCTCGCAAAAGTAATTACTCCTTCAGAGGCATATAAATCAATCCATTGGCAGGTTATCATTGTTATTGCTGCATTTTTACCGATGGGAGCGGCTATTTCAAAAACCGGTATGGATGTAATCATAGGAGGTTCAATAGAGAGATTTATTAGTTTTTTCCCTTCAGAAATACTCCCTTTTATATTATTAGCTGTTATTTATTTTCTAACAATGGTTTTAACAGAGATAGCTTCGAATGCGGCTACAGCAATTATCATGACCCCAATTACCTTATCTTTATCTTCTGCTTTCAGTTATGATCCTAAACCCTTTATTTTTGCAGTTTGTTTTGCAGCATCAGCATCGTTTATAACTCCTGTTGGTTATCAAACCAATTTGATGGTGTTTGGACCAGGTGGATATAAATATTCTGACTACATTAAAGTTGGACTCCCCTTGGGTCTAATTCTTTGGATTGTTTCAGTAATTATGATTCCCATGATATGGCCGTTTTAGGATGGTTTGGTTTGAAAAAAATAATGCAATTTCAAAATCTTTTGAATTTGAAAATTATTCTCAAAGTATAGACTTTATAAATTCAGTTGCAGTGCTTGCTGAAAAGGAAAATCATCATCCCGACATTTTAATTGAATATTGTAAAGTAACAATTACTCTTTCAACTCATGATGTAGGGGGAATTACAGCAAAAGATTATAATCTTGCAAAACTCATTGATCATATAAAAGTTCTGTGATTTATCTTATTTTAGTTTCGATTTTGTGGTCATTTTCTTTTGGAATTATCAAATATGGTTTAGGAGATGTTAATCCAATACTTTTGAGTTTTCTAAGAAATTTAATTGCTTTTGTTTTCTTTGCATTAATAACTGTTTATAACCATAAAAGATTTGTTTTTGATATAAAATTAATTGCTATTGGAGCGATTCAATTTGGCTTAATGTATGTTTTCTATATTAGTTCATATCAATTCTTGCCGACATATTTAATCGCTGCATTTACGATTAGCACTCCTATTTTCATTATGATTTTTTCACAAATAATTAATCATAAACCTTTTACTTTGAATGGAATTTGTTCAGTTTTTTTGGTTCTCACTGGTTCATTTTTGATAAGATTAACTATTGTTAATCCATTAGACTATTGGATTGGGTTCATTTTAATTCAATTGGCCAATTTATTTTTTGCTCTAGGTCAACTTTTATTTAAGGAATGGAAGAGTAAAAATAAGCAGACTGATGTAATTAATAATTTTTCACAATTATTTTTTGGAGCGGTAATTATTACGTTTATTTTTAATTCTTTTTATTCCAATAGCTTTGAGACTATAAATTCACATCACATTCCATGGTTATTATTTTTGGGTTTAATCTCAACTGGCTTCGGATTTTTAGCCTGGAATTTGGGATCAATTCAGGTTTCTAATGAAAGATTAGCAGTCATGAATAATCTTATAATCCCAATTGCAATAATAAATTCGTTTTTATTTTTTCAAGAGCAAATAAATTTTATAACATTTTTACCTGCCATGATTTTGTTTTATTTAGCTTATAGACTTACTTAGAGACTTATTATTTAAAAAGGTAGTCTAAGATTGTTTGTTTCTAAATCGATCATGCTTTTTCTGAAAAGCATTTCCAAGAGTTAAGTAGATTATTTTTTTAAATAATATAACCAGATTCCATTGCCAAGGGAAAATGAAAACCCTTTTCTTTTTAGTGATAGCTGCCACAATTTTTTTAGCTGCTTTTTCTGTATCAATTAGGAAGGGTTTAAATTGAACTTCCTCAGTCATTTCGCTTTTCACAAACCCAGGACAAATAAGAGTAACTTGAATCTGTTTAGGAAGACTTCTTCGCAATGATTCACTCAATGCCCTTACTGCAAATTTCGAAGCCGCATAAGCCCCGCTTCCTGGCCAAGCAACGTAACTAGCGACTGAACCAACGATAGCAATCTGACCACTATATTGTTCAATCATTTTAGGTACAAAAGGAACAACGGTGTTTTGAACTCCAATTACATTTGTTTCAATTACTTGATTCATGGAGGATGGATTTCCTTTTTCAATAAAATCCAAAGAGCCTAACCCTGCATTGGCAAAAACTAAATCAATTGAATTTACCTTACTTAAAAAATCATCAATCGACTCTTTAACAGAGGAAAGATCTGTTACATCAATAGAGTAGGTATAAACCTTTGCACCAAGAGAAACACATTTTTTTTCAATAATCTCTAATTTTTCTTTTCTTCTAGCGCAGAGAGCAATAGTTGCTCCCATCTTACTGTATTCGTAGGCTACAAACTCTCCTATACCACTACTAGCACCAGTTATATATATATTCATGTTCGAATTTATAAGACAAAAATCCAGAAAATCTAATTATATTTCAGTATTCATTATGAAAAAAGACAACTATTCTAATTTAGTCGAATCAATAATTCTAAATGTCGGTCGTCAGATAACAGAATTATCCCAAAAAGATAATAGTAATCTTGTTACAGTAGCTGAACTTATTTTAAAGAGTAAAGGGAAAGTTATTGTCTGTGGTCTTGGAAAATCAGGACTAATTGGTCAAAAAATTGTGGCTACTTTATGCAGTACTGGTACCCAAAGTGTTTTTTTACATGCTGCTGACGCATTGCATGGGGATATTGGCATTTATAAAAAGAATGATCCTACTATTCTTATTTCAAAAAGTGGTAATACTGAAGAACTGATAAGATTAATTCCAATTATTAAATCTATGAATTCTAAAATTATATCAATTGTAGGTAATAAGAATTCATTTATCGCTCATAATTCTGATTTTATCCTTGATGCTTCAATTACTGAAGAAATTGATTCATTAGGAATTGTGCCTACAACTAGCACTGTAGCGAGCTTAGTAATTGGTGATACCTTAGCAGCAATTCTAATGAAAATGCGTGATTTTAAGAAAAATGATTTTGCTAAAAATCATCCAGCTGGTGAACTTGGTAAACAGCTTGGTTTGAGAGTTTCTGATGTGTTTCATCCTTTATCCGAAATTGCATTTTTTAAACCTTCAGATTCACTTTTTCACGTTACTTCTCTTATGACAAAATATCCCCTTGGTGCTTCATTCTGCTTAGATAATAAAAACAGTATTTTAGGAATAATCACGGATGGAGATATAAGAAAATCCATTAACAATGGTCTAAACCCTAATGACTCTGTAAAATCAATTATAAATTTCAATCCAATCACTATTAATGAATCTACTTCTTTAATTGAAGCAATGAAAATAATGGAAGATCGCGCATCTCAAATATCAATTTTACCTGTCGTTGATAAAGATAATAAATGTATAGGATTATTAAGATTACACGATTTATTTCAGACGAAGCTTGTCTAAGAAATATCAAACTTTATCTTTCTATCATTTAAATATTCAATTAGAAAATTAAAATAATTTTCATTCTGTCCTAATATTTCTAAGGGCACAACGCCCTGAAAAGTGAAATTATTTTTTTCATTATTTAAAAGATTTACGCACCCTGTTGCTGTAAATCCAGTGCATCTTGCCATTGAAGTTGTTTTGGAATTATCATCAAATTCGTCATAGAGAAAAATTCTAGTATTTTTATCAACAGAAGAAATAAATATTTCTAAAATAGTAAATTCTTTCTCATTTACATCTAGTTTCCATTCTTCAATTAGTTTTTGAGAAGTTGAAACAATTGCTTCTTTATTAAAAAGTCCCTTCTTTTTCATTTCAATAATGAGATTTGCATGCCCACTAAATCTTAAAGTCTTTTCTTTTAGGTTTGGGATATCTTTCATAGTAAAAATTAAAGATCGTAATCCATCAGTATTGAATGCTTCAAGGTTTCCTATATCCTTATAGTTTCTTTGTTCAATATCTGTTAAAGCTTCACGCTTTATTAATTGTCCTCTTACTTTTTGACTAACTTCTCGTGTATATTCTTCAATTACATCAATCGGAGAAAATGGAGCTTTATATTTGAATGGAGGTTTAGGATTCATTGGTAACCCTCCTACATAATAAGAAAAAGAACTAATTTGATTTTCTTGATAATAGTGACCTAAAAATAAATTAGGCAATCCTGGCGCTAAGCCCGCATCAATAATAACTGTTACTCCTTTATTCTTTGCTTTTTGGTCTAATTCAAGAAGATTTTCTGGGGAAAAAGAAATATCAACAACGTTTACTCCTAGGTCTATTAACATTTCTAAAATTTCATATCCTAAAAAACCTGGAACAGCTAAAAGAACTAGATCAGCTCCATACAACCATTCAGCTAACTTATCTTTTTCTCTAACATCAAAAGAACAAGGAATAATATTAGGATTGTTTAAATTTCTAAATGCTTTTGGATTAATATCCACAACATGAACTTTAAAATTTTGTGAAAGATCTTGAGACATTGCTTTACCAATAAGTCCAAAACCAATTTGATAAATGTTTTTCATAAAAATGAAAAAGGGTTAAAAATTTAACCCTCTATTGCGGGATAGACGGGACTTGAACCCGCGACCTCCGGCTTGACAGGCCGGCGTTCTAACCAACTGAACTACTACCCCTATTTAATTTTTAAGTATTGCTAAAGGAATTAAAACAATATATCCCACAATCAATAAAATCGGAGCTAATGTAACGCTCTGAAAACTATTTACATCACCCATATACATGATAAAATAACCCACAATTATAACTAAAACTGCGAATCCAAACAAAAGATAATTTTTTCTTTTAAAAGGCCAAATTATTTTATCAGGATTTTTATTTGTATTATCCATAATTAAAAATTACCTCTTAATAGTAGATTTAAAAATAGATTTTGCTATGAATTGATTTAAATGGTGAAATCGATTAATTTCTCCACCAAATGAATTTCACAAAAAATCAAATATTTGCTAATTATTTTTTTTTATTTTTATCAATTGTATTAATTGTTTTTACAATTATTTTTTCAGCAAATAATCAAACTATTTCTAAAAAAATTATAACTATAGAAAAAGGCAAAAATTTAAATGAAATCATTGATTTATTTTATAGAGAAGAGTTAGTTAAAAATAAATTTGTATTTAAGTCATTTATTTATTTTAGAAATCTTCAGAAAAAAATTCCTGCCGGAACTTATTTGTTCCAAGGTCAAATTTCCAATTCATCGATAATTAATACTATATTTTCAAACGGGCAAATATCAAAAATAATTACCATTCCTGAGGGGAGCTCAACTAAAAAAGTAGTTGATATTATCTTATCAGAATTTGATTTTGAATTATCAGAAGTTGAACTTCTTAAAGATAAAAAATTTCTCGAGAGCATTGGAATTCAATCTTCCTCAATTGATGGTTATCTTTTTCCAGATTCTTATTTTTTTCATTATGATGATTCTTTTAAATCAATAATTCAAAAAATAGTTAATGAATTTGAAATAAGAGTGCTTCCACTTTATAATCAAAATCAAATTAAGGAAATGACTTTACATGAGATTTTAACTTTAGCATCAATTGTTGAAGGAGAAGCAATGATAGATGACGAAAGAGCAATTATTGCTTCGGTTTATATCAATAGGCTGAAAAAAAATATGAAGCTTCAAGCAGATCCTACCATTCAGTTTATTGTTGATGGATCTCCAAAAAGATTAACTTCAAGAGATTTAAAAATTGAATCTCCTTATAACACATATCTTAATTTTGGGCTACCCCCAGGACCTATTAATAACCCAGGGCTAAAATCAATTCATGCAGTATTAAATCCAGAAAAAACAGATTACCTTTTTTTTGTTGCTAAAGGGGACGGATCACACGTTTTTACCAAAAATGAAAAGGATCATAATGAAGCTAAAAAAAACTACAAAAAATTTTTAAGGAATCAATAGATGAAGTTGCAAGATTTAAATAAGAATCAACTAAAAGCAGTTCAAGAAGTAAAAAAACCTTTGTTGGTTTTTGCTGGGGCGGGAAGTGGAAAAACAAGAGTGTTAACCTATAAAATATGGCATCTTATTAATCAGAAGTTATACCAACCTCAACAAATTTTGGCCCTAACCTTTACTAATAAAGCTGCTAAAGAAATGAAAGATAGAATATCTCAAAGCATAGATATCCAAGGAGTAAATGTAGGAACATTTCATTCGATTGGTGCTAGAATTTTAAGGCAAAATATTTCAAAGATTAATGATAGTTATGGACCAGATTTTTCAATTTATGATACAAATGATCAAAAAACGATTCTTCGAGAGATTATTGAAGAATTAAATCTAGCTGAGAATAGACTATTTAGCCCAAGTTTTCTTTTAAGTGAAATTGATAAGTTTAAAAATAATTTAATTGATGAAAAGTCAGCTTCTAAGTCAGCAAAATCATTTGAAGAACAACAGATTGCTGAAGCTTATAATCTTTACAGTTTAAAACTTAAAAAAAATAATGCTGTTGATTTCAATGATTTAATTCTTTTGCCCATTAAGATATTTTCTTTGAACAAAACAATCTTGAAATCTTATACTGATCAATGGAAATATATTCTAGTTGATGAGTTTCAAGATACTAATACAGCACAATTTAAATTGATTGCTCTCTTATCAAACAACAACAAAAATATTACAGTAGTAGGAGATGATGATCAGTCAATTTATGGTTGGAGAGGGGCAAATATCGATAATATTTTAACAAACTTTAACGAAGAGTTTCCCAATTGTGTTCAAATAAAACTTGAAGAAAATTATAGATCTTCTCAGAGAATTTTAGATGCGGCTTGGTCTGTAGTGATAAAAAATAAAAACAGAGCAGAAAAAAAACTTAGGGCAACAAAAGGTCAGGGAGATAAAATCTCTCTAATATCAACTGATAATGATGAAGAAGAAGCCAATGCAATTTGTGATTCAATAAAATCTGAGATTAAGTTGCATAAAAATACTTTTAAAGATTTTGCTGTTCTCTACAGGACTAATGCTCAATCAAGGTCCTTAGAACAGGCATTTATTAAAGAAGGTTTACCTTATAATATTGTTGGAGGGACTAAATTTTATGACAGGAAAGAAATTAAAGATATTATATCTTATTTATCTTTAATAACTAATCCTAATGATAATGTTGCTCTCAAAAGAATTATAAACTTTCCAGTTAGAGGAATTGGAGAAAAATCTATCTCATTATTTGAGGATCTTTCTACAAAAACAAATATATCAATGTTTCAAAGTCTTAAGAATGCTTCTGATCTGAATCTTCGAGGTAAACAATTAGATTCAATTAAATCATTTTACAATTCAATAAATAAATTTAACGGGTTATTAGATGAATTAGATGCCAAAGAGTTAATAAGAGTTGTATTGGAAGAATTTAATATTCAAAACTACTACAAAAATAATCCAGCAGAATTCGATCGCTACAATAATATTCAAGAATTTAAAGCTTTTGTAGATCAGTTTATGGAATCCAACAATTCAAGTCTTAGAGAATTTCTTCAAGAGATTTCTCTTTTTACTGATATAGATAATTGGGATAGCAAAAATAATTCAATAACACTGATGACAGTGCATGCTGCTAAGGGATTAGAATTTTCAAAAGTGATGATTTCGGGTCTAGAGCAAGGATTGTTCCCTTTAATAAGAATGGATGATACTTCTGAGCAATTAGAAGAGGAAAGAAGATTATTTTATGTTGCTGTTACAAGAGCTATGGAAAATGTTTTTATTTTTAATGCACGCTTTAGAAGAAGATTCGGTTCTAGTTTGAATACTTCTTTCGTTCAATCTCAGTTTCTGGATGAGATAGACCCGTCTTTAGTCACTGTGAAGCCTTACAAATCAGTTTATACGAAAAGAATCACGGGAGTCGGAAAGAATAAAAAAGTTCAAATCTCTAGAACAATTAGAGAATTCGATGATTTTAAAGTTGGCAATCAGGTCGAGCATAATTTGTTTGGGGTTGGAACAATTTTAGTTTTAACTGGAACTGGAGAAAATCAAAAAGTCGGAGTTGAATTTTCTGGAGGATTAAAAAAGAAGCTTATTGTAAAATATGCAAGATTGAAAAAAATTGGTTAACAATAACATAATTCTTAATTTTGAAAACTATGAACAATCTTCCTTGTAGGTTTCACTTAAATATTGAGTCAGTTCTTAAACAAGAAGGTTTAAGGGTAACAAAACAAAGATTAGCAATTTGGGATGAAATAAAATCTTCTGAAAGTCATCGAGAAATTGAAGCAGTTTTAATTTCTTTGAAAAAAAACAAGATTTCTGTTTCAAGAGCAACTCTATATAGAACTATTGAAGTTTTTGTAAAATATAATTTAGTTAATAAAATATCATTCAATGACGGAAAAGTTCTTTACGAGCATAACAAAAAAACTATTTCACCGAATCACAATCATATAATTTGTGAAAGCTGTGGAAAAGTTTTTGAATTTTTTGATGACTCAATTTTAGCAATTGAGAATGAAATGGAGAAAGAGTTAAAAATTAAAATCACTAATCGTTCATATAGTCTATCAGCAGTTTGTAATGATAGGTCATGTTCTGAAAAAATCAATAAATGAAAACAGTTCTCATAAGTCATTTTGTACCTGGAATGAAAATTGAAGGATTCTACTATTGTGTTGAAAAAAGAATTCTTAAAAAAAAAGATGGAACTAAATATTTAAGCCTACTTCTTCAAGATAAATCAGGTTCTATTAGAGCTCGCCTTTGGGATAACATAGATGGGTTTTCCAAGAAATTCTCATCACCTAATCCTGTAGCTATCAAAGGAGAAATTTATCAATATGGTGACAATCTGATGATAAAAATTAGAAATATAAATTTTGCTTCAATAGAAAAATACTCAAAATTTGGTTTTAATCCTGCTGAGCTGATTCCTGAATCTAACATTAATCCTACTAAATTGTGGGAGGTTCTATTAAATGAAGTTTCGTTAATTTCAAAAAATCATTTCAAAATATTAGTTTTAAAAATTCTTAAAGATCAAAAAAATAAATTTATTGTTTTCCCTGCGAGCATTTCATATCAGTATAATTATCAGAATGGCTTGTTGGCTCAAACAATTTCTATGGTTAATTCTGCAAAACTACTCAGAAAAAACTATGAATTCGATTATGACCTACTATTGTCCGGAATAAGTTTACATCAAATTGGAAAACTTTACTCAATCAATGTTGGATTTAGTAATTCATCAAAAAGTTCTAATGAAAAAGCTTTACTTGGGAATGCAATATTGTCAAAAGATTTAGTTGGAGAATATATAAATCAAATTCCTACTTTTCCCAAAGAAGATAAAATTAAACTAGACCATCTTATTTTATCATATCAGGGAAGAAGAGAGTGGATGAGCCCCATAGAACCTCAAACTATTGAAGCAATTCTTCTTCACACAATTAGTTATTTGGATTCCCAAATTAATATTTTGAAACGATAAACTTAATTTTTAGAAGAAATATTCTAATGTAAGGTTAAAAGTTCTTAAAGGTTCTGGATAACCAAATGTCGATTGATATTTTTCATTAAAAAGATTGTTAATAATAAACCCATATCTGATTGATTTTTCTTTAAGAGCGTAAGCAAGATTGATGGTATCAAATTTTTTACTTAATACTTCAGGCGTATAGCTTGAAGCATATTGTGTAATTCTATCTCCAATTATCAAATAATCAATTTCAAGAGAATGTTTATCAATTGAAAAAAAATATGTTAAAGATGCTTGGTAATCTGGAACATATAAAAGTTTTTTATTTTTTGATTTATCAATACTATCATAAAAGTTAATTGATGATATTATTCCTTGGTTATCATTTGATAATTTCCAGAAAAGATTTAAAGAATTTTTTTCAGCAATTGAAATATTAACAGGAGAATATTTTCCATTTTGATCTGAAATCCAATTGATTAAATCCTTATATTTTTTAAAAGATACACTAGCTTTGAAAAGTGTACTAGAATTAGTATAAGTCAAATTTGAGGTTAAGTAATTGCTCTCTTCATTTTTAAGATTTTTATTTCCTGAACTATATTGAGAATCTGGCCAATAAAGATCATTCAAGCTTGGGAATTGAAAACCGCTTCCGGTTTCTATTTCAAAATTTATTGGCAGCAACTTAAAATTATAGCTTGATGATAAGCTAAATGTATTTTTTTGTATATTTTCTTGACTATCAAATCTAAAAACAGGCTTAGTTCTAAATCTGTTATTGAGGCTATTGTATTGGAAGGATGTTAATAGTGATTTCTCAGTGATATTTATCTTTCCAATATCGTTGCTATCTAAAAAATTTTTTTTATTTTCAAAAATAATTTGAAAGTTTCTTTGTCTATTGGAAGTTTTAAAGTTGATTCCACTAGTGTATGTGTTTGAAAGATGTTCACTTAAAGAGCTCTGTTCAGAGTCATATTGGTATTCTTGTATAGAATCAACAATATGAAAATAAAACTTTAAGGAAGATGAATTAAAATTTTTCGTCCAGGTTAAATTACGAAGACTAATATCATCTTTTCTAGATGCATTTGATGTTGGGTAAAATACGCTACCCGGGACATTTCTTTCAACAATTGAAAACATAGATGAATAATGAAAAAATGTGTCATTGTTTAATTTATAAATTCTGTTTATAGAAAAGAAAACTTGGTCAAACTGATTATTTTCTCTTTTTTCATATTGATTGCTAATATTGTTATAAAATTTATAATTACCATCATATTGGGTTTTTGAGAAAAAAATATCTCTTCGAGAACTTTCTCTGGATAAAGATATTTTTGATCCGAATTGAGAAAAGGCGTTCGATCCAGAATTAATAAAAACACTATTCTCCGAATTTTGATTTTTAAAATTAATCACTCCATCAATAGAACCAGAATTATAAACCGCCCCAATATTTGAGTCAAAAGCTACATTATTAAGAACTTGAGTAGGAAATAATGATAGGTCAGCTTGTCCTAATTGAGCATTAGTAACATCTACATTATTAAAAAGAACTTTCGTATGTCTTGGGAATCCGTTATCAAAACTTGGGCTAACTACTCCTGAAATTGAACCATAAGTTCTAATACTAAATGAAGGAATTTGATAAAGATTTCCATAATTTGAAAATTCTCCTATTAAACTTTTTTCTTTGAATTCTTTTACCATTCTGATATCATTTACTGTAAATACATTTACAGGGTCTAACTCAATACTTTCTGATAAAAGTTTAAAATATTGAAAGCTACCGATTGGCATGAAAGTCTTGGGTTTATAACCAATTCTGGTAATCGTAATTGTCTCTCCAGAAGAGTTGATTGAAAATTCACCATTTTCATCAGCTATTGTCCATTCTTTAGAGCCATTGTCAACAATCACTGCATAATCAATGGGAATATCATCCTGATTAATAATAATTCCTCTAAGCTCTTTTGAAATTAATGAATTAAAAATTATTATAAGGTTTAGTAATATTTTTATGTATTTCATTTTAATGGTAAATTTGAAGTGAATAATAAAGCCGTAAACTAAAATCTCAAAGGGAAAAAGAATTTTATTCGTCAATTACATGATCAATGAGCAATAATTCTTTAGAAAATTGTTTAACATTAATCCTTAACGCAAGTTATTTGCCACTAGGGATTTGCTCTTCAAAAAGAGCAATATGTCTTTGTTTTTTAGAAAAAGTGTCTGTTATATCAGAATATTCCACACTAATACACTCCCCGTCAATTAATATGAAAATTCCTAGTATTGTTCGGTTAAATAAATATGTGAAATTTCATTCAAAAGATATGGTTTTAAACAGAAAGAATTTATTTTTAAGAGATAATTCCAGTTGCCAATATTGTGGATGTTCAAAATCTTCTCTCACCATTGATCATATTGTTCCAAAAGGTAAAGGTGGAGAAGATAGTTGGACAAATCTTGTGGTAGCATGTTCTTCATGTAATATCAAGAAAGGCAATCGAACTCCTAAAGAGGCGAACATGCCTTTAAGGAAAGATATCAAAAAACCTAATAGTCTTCTCTATTATAATCAATTTGTGAATTCAAATAATAGTGACTGGAAACAGTTTTTATTTTAATATAAGTTTATATCTAAAATGAATATAAAAAATAAAAGAGTATTAAGCGGTATTCAACCATCAGGATTATTACATCTTGGAAACTATTTTGGAATGATAGAAAAAATGAAAGAATTTCAAGATAGTTCTGAATTGTTTTGTTTCGTTGCAAATTATCATTCTTTAACCACGGTTAATAATAAATCCAATTTAAGAGATTTTACTAATGACTTATTTATCAATCTTATTTCATTGGGAATTGATCCCAATAAATCTACCGTTTGGATTCAATCGGATGTTCCCGAAGTAACTGAGCTTAGTTGGATTTTATCAAATTTTTCTAGTGTAGGACTAATGCAAAGGTCTACAGCCTATAAAGATAAAATCTCAAAAGGATTTAGGCCAATGATGGGTTTATTTTCCTACCCTATTTTGATGGCTGCAGATATTTTGAGTTTTAATGCTGATATTGTTCCCGTTGGAGAAGATCAAAAGCAACATATTGAAATGACAAGAGATATAGCATTGAAATTCAATAATTCTTTTGGAGAAGTTTTTAATTTACCAGAACCATTAATAGATGAGGAAAAAAGTTTAGTCCCAGGCACAGACCATCAGAAAATGAGTAAATCTTACAATAATATAATTTCAATTTTTGATAAAGAAGAAATTATTAAAGAACAAGTTTACAGTATAGTAACTGATTCAGCAGGTTTAAATGAGAAAAAAAATATTAATTCTCCATTATTCAAAATCTATTCTCTCTTTTTGAATGTCGAAGAAATTAAAGAACTAAAGAATAGATACGAGACTCCTGGTCTAAAATATATGGAAATCAAGCAAGAGTTATATGAAAGGATTTTGGAATATTTTTCTGAATTCAGAAATTTAAAATCTGAGCTAAGTTCTAAACCTGATGATTTAGAAGATTTGAAAAAAATAGGAAAGAACAAAGCTCAAAAAATAGCTCTCGAAGTTCTTGAAAAAGTTAAATCCGCAACTGGATTAATTTAAGTGTTCAAAGTCCAATTACAGAATTTCGAAGGTCCAATAGATTTACTCCTTTATTTTATTAAAAGAGACAAGATTGATATATATGACATTCCTATAACTAAAATTACTGATGAATATTTGCAGGTTATACAAGAAGCCAAAAATTTGGACATTTCTATAGCCGGAGAATTTTTATTCATGGCTTCTCTTTTGTTAAGAATCAAAACCCAAATGCTATTACCTATAAGGAAAATGGATGAGATCGATATAGAAGACCCTCGATTTTCTTTAGTTGAACAAATAGTTCAATATAAGAATTTTAAAAATATAGCCAGAGATTTGGAGGTGATTCATTTGAAAAATCGAAATATATTTCAGAGAATTTCAACAGGCAATGAAATGATTCGCACTAAATCTACTGATGACTATCTTCAAGGAATATCTTTGTATGATTTATCAAAAATATTTCATTCATTAATTAAAACATTACCTCAAAAAGATATTTTAAAAATTTCTAGAGAAACAGTTTCGATTGATGATCAAAAGAACGTAATTCGTTCATTTTTTAAAAAGAAAAAGATAGTTTCCCTTAAATCCCTGATTAAAACCTTAAAATCAAAATTAGAAATAGTCGTTACATTTTTAGCAATACTAGATATGTTAAGGGATGGAGTAATTTTTTGTGATCAGAAAAAAAATTTTGATGATATAGAAATGAGATTAATTTAAATGAACAGTAAAAATCTTAATATTGTCGAATCCCTTATCTTTTTATCCAGCGAACCTTTTAAACAAGAAGATTTGAACATTGTTTATGAGGAGCATGCTGAAGTGCCAAATTTAGAGAAAATTGTTACAATGCTTAATAAGCGTTACACTGATTTTTCATACCAAATTGAAGCTGTATCTGGTGGTTATCTGTTTGTAACGAAAGAAGAATATGAGCCATTTATCTCAAAAATATATCCATCGAAAAAGTTAACACTATCTAAAGCTAGCCTTGAAGTCTTGGCAATTATTGCTTATAAACAACCAATTTCTAGACAGGAAATCGAAGAAATTAGAGGTGTTGATTGCAAAGGATTGATTAAAAATTTACTATTAAAAAATTTAATTAAAATTCAAGGCAGAGATGATTCTGTTGGAAAATCGTTACTTTATCATACTTCGGAAGGATATTTGAATCATTTTGGGTTAAAAGATATTTCTGAAATGCCCAAAATGAGTGAAATTAACGACCTTGAAAATGAAAAATGAAACTCCATAAATTTTTAAGCCTTTCAGGTGTCATCTCCAGAAGAAAATCTATAGACGCCATTAAAAATGCTTTAGTCACTGTTAATGATTATTTGGTTTTAAATCCATTTGAAGAAATAGATCACAATAATTCTATTATAAGACTAGATAACAGAATTATTAAAATTCCAAGTACCTTTGAAACAATTATACTTCATAAACCCAAAGGATATATTTGCTCAAAAGCCGATGAATTAAATCGTAAGACTATTTATAATTTAATTCCTAAGTCAAAAACAAAATTAGATTATGTTGGAAGACTCGACAAAGATACTGTTGGTTTAATAATTCTTACATCAGATGGACAATTGAATAATTTTCTGACCCATCCTAGCAATAAAATAGAAAAGGAATATGAGGTAATTACAAATGAATTTATTCCTGAAAAAATTGTTCAAAGAATTAAAAAAGGAATTTTTATTGGAAGTGGTGAAAGGGGTAGAGCAAGAATCATTTCTCAAAAAAAAAGTAATAATTTTATTATTGTAAACCTTGTTTTGACAGAGGGTAAAAAAAATGAAATTAGAAGAATTTTTAAGTTTACTGACTTAAAATTGATTTCATTAAAAAGAGTAAGAATTCAAAATTTACATCTTGGAAATTTGAAAGAAGGTCAATGGAAAATTTTGAAAAGTTCTGATATCAAAAATCTTCTAAAAGCTTAGTTTTATACTAAGGTTATTAATCTTGTCATTATCTAAAAGAAAAATTAACTTCTCGAGCATTTATGGTAGTAGCAATTGATGGACCAGCCGGTGTAGGTAAAACTACTACTGCTAAATTATTAGCAGATAAGCTTGGTTTTATGTATTTGGATACTGGAGCTATGTATCGCTCCATGACCTATTTTTTTTTGCAAAAAAATGTTGATTTAAATGATATAAAAGATATTCAGGAAAATATTATTCTATTTGAGAATATTGTTGAATTTAAAATTCAAAACCCAATGATAATCTTTCTATCTGGAAAAGACATTTCGCAAGAAATAAGAAGAGTAGCTGTGACCAATTACGTCAGTCAAGTGAGTGCAATTGACGATGTAAGAAAAAGCATGGTCAAAATCCAAAGATCTGTTGCTTCAAAAGGTAATGTTGTTGTTGAAGGTAGAGATATTGGAACAGTGGTATTTCCTGATGCAGAATTTAAATTTTTTTTAACCGCAGAATATGAGGTTCGAGCTCTCAGAAGGTTAAAAGAATTTAATAAAATGAATGAGAATATTAACGTTAACCAAATAAAAGAAGATTTATTGGCTAGGGATAATTACGATTCTAATCGTAAAATATCTCCTCTTAAAAAAGCTGAAGATGCTTTTGAAATAGATACAACTAATTGTACTATTGATGAACAAGTCAGTATAATTTTCAAAGAAATAGAGAAAAAAAATGAATGATAAACTAGAAAACAAAAACGAATCAACAGATTTAAATGTTATTGAAAATAATAATGAGGTTAAGACCTCAAGCGTTCTATCTAAAATTAAAAATTATTTAAGCAAGGATTTATTTAGTGGAGTGAAAATCATTGATAATAATGATGAACAAGTTGTTGAAGAAAAAGCTACAAATTTAGAGGAATACCGAAGCACCTTTAGCGATATTACTGAAAATCAAATAATTAATGCTCGCGTAATCGGTATAAGCGATTCTGATGTTATGGTTGATATTGGATTCAAATCTGAAGGTTTGATTACAAGATCAGAATTTGAAAATCAAGATCTACCTGTTATTGGTTCAGATATTGAAGTTTTTCTTGAAAAATTCGAAGATAATGAAGGAAATATTAGCTTATCTAAATATAAAGCTGATTTTATTAAAAGATGGGAAGAGTTAATTCAAATAGCTAAAGATGAAATCACTATAAAAGGTAAGATTTTAAAAAGAGTAAAAGGGGGATTAGTTGTTGACCTTGGTGTTATTCAGGCTTTTCTACCTGGATCTCAAGCTGATGTTCAGCCAATTAAAAACTTTGATGATTTAATTGGTAAAGAATTAGACTTTTTGATTGTTAAAGTTGATGAAGTCAGAAAAAACTTAGTTGTTTCTAGAAAAGCAATTCTTGAAGAATCTTTAAATGAAAGAAGACAAGAATTAATGCAAAATATTGAGATTGGTACAAAATTAGAAGGTGTAGTAAAAAACATAACAGATTTTGGTGCATTTATTGATCTTGGTGGAGTCGATGGTTTAGTTCATATTACTGACTTTTCTTGGGGTAGAATAAATCATCCTTCTGAAATAGTTTCAATTGGTGATAAAATAAATGTTCAAGTAGTTGATTATGATCAAAAAACCTCCAGAATTTCATTAGGAATCAAGCAATTAATTGATAATCCATGGCAATCTATTCCTGAAAAATATAAAGTAAATGATACTGTGGATGGAAAAATTGTCAGCGTTATGAATTATGGTATTTTTGTTGAACTTGAAAAAGGCATTGAAGGCTTAATTCATATTTCTGAAGTTTCTTGGGTAAAAAATATTCAAAATCTCCAAGATTCTTATAAAGTTGGAGACAAGATTCAAGCTAAAGTACTTTCAGTAGAACCAGATGACCAAAAGATAAGCTTGGGAATTAAACAACTTTCCACAGATCCTTGGTTAGATATTGATGGCAAATTTCAGGTTGGAGATAAAGGCAAAGGTATCGTTAGTAAAATAACAAAATTTGGTGCTTTTATTGAACTTGACGATAAATTTGAAGGCTTTGTGAGAATTGTTGATTTAGATTGGAAAGTAAATCCTGCTCATCCAAGAGAATTAATTAATGAAGGAGAAACAGTAGAATTTATTATTTCAGATATCTCATCAAAAGAAAGAAAGATACTTCTTAGTATTAAAGATTTAAATGAGAATCCTTGGGTTGAAATTTCTAAAAATTTTCAGGTCGGCAGTACTATAGCTGCAAAGTTTGAAAGTTTGGAGGATAATCTAGTTAAGTTTAAATTAGAGGGAGATATTCAAGGAATAGTGCCTATGAACAAAGTTTCAAAAGATGTCAAAAAAAATATTCTTCCTGAACTTAAGTCTGGATCTGAAATACAATTAACTATTGAAGAAGTTAATGAAAAAGGGAAAAATATTGCTTTGATGTTTGATAACATCAAAAATGATTAATTCATCATCAATTAAACGATTCGGTACAGCTTTTTTAATTGCATTTGTTTTTTGGTTTTTTATCAAAAGCGAAGATAGTTATAATGTCAATATTAGAATTCCATTAGAAGCAAGAAATCTTCAAGAACAAAAAACATATAAAGAAGAGGTTCCTGAAAGTATTATTGTTAATCTAAAAGGATCAGGTAGATCTTTTATTTGGCTCAGTTTATTTAGAAACTTTTATGATGATTTTAAGGCTGTCATTGATTTAAGTAGCATTTCAGATGAATATAATTTTGAGCTTAATTCATACTATAAGGAAAATCCCGAAAAAATTGTTCTCCCTCAATCTCTTTCTCTGGATTTTATCGAAGTTATTTCTCCAAGACAGATTGAAATTAACTTGGATAGATATTTAGTGAAAAAAGTTCCAATTAAATCCAATATCTTTCCAAGAATTATTCCTGGAAACATTATTGTTGGAGAAATTGAGTTTTCTCCTGATAGTGTTAGTTTAGGAGGACCTGAAGAAGTTGTAAACTTAATTTCTAATATTGAAACTTTCAGTGATTCTCTAGATAACCTAGATCGAGAATTTTTTGGAGAAATTCAATTATCTTCTCCTGACAAATTAGTAGAATTTTCTCCAAAAAGAGTTAATTATAAACTTGATATTCAGCCTATAAGTGAAACGATTGTTTCTGGTATATCTGTCCAATTAATAAATAAGCCGACCGATGTTAACGTTTTTGTTAATCCGTCAACTGTTTCATTAACGATCGTTGGTGGTTTAAAGCAGATTACAAAAATTCTTCCCAATGAAATTCAAGTAATCATAGATTTCGAAAAGGACTGGAAAGCAGATAAGCAATTTTATGCTCCTGAGATTCGTATTCCAAAATCATTAATTGATTGGAAAAATTTATCTCCCAATAATTTAGAGATTTTAGTAATTAAAGAAATAAATTGATTGTATTAGGAATAGAGACATCTTGTGATGAGACTGGAGTAGCGATATGCCAAAATTCTCAAGTCATCGAAAGTCATACTAAAACTCAGCTAATTCATAATCAATATGGGGGTGTAGTTCCTGAACTTGCTTCAAGAGAACACGAAAAATATCTATCTGAAATAACTGATTTAGTTCTTTCTAAATCAAACTTGGAATTAAGTAATATTGACGCAATTGCTGTGACAAACGGACCGGGATTGATGGGCTCATTGTTATCGGGAGTTTCTTTTGCAAAAGGTTTAGCGCAAGGGCTTGGAATACCTATTATACCAGTAAATCATCTAGAAGCTCACTTAAATTCTATATTTATCGAGCATCCATCTTTAGAAATACCACATATTAATTTTTTAATTTCTGGTGGACATACACAACTTTGGCTAGTAAATAATCTTTTTGATTATAAGTTAATTGGTCAAACATTAGACGATGCATGTGGTGAGGCTTTTGACAAAGGCGCTAAGTTATTAGGATTGCCCTACCCAGGTGGGCCAGAAATAGATAAGATTTCTAAAAAAGGAAATCCTTCTAAGATTAATTTTCCTAGACCAATGCTTCAATCGGATAATTTTGATTTGAGTTTTAGTGGTTTGAAAACTTCACTTTTAAATTATGTTAGACAGAATGACAATTATGATTTGAATGATGTATGCTCAAGTTATCAGGAAGCAATTATTGATACGTTAATCGCTAAGTTTGATAAAGCATTAAATTATTATGAAATAAATACTGGAGTCTTATGTGGAGGTGTTGCTGCAAATTCACGCTTGAGGCAAAAGTTAGAATCTTTAACAAAAAATTTTTATTTTCCTGCAATGAAATATTGCACTGATAATGCAGATATGATAGCCTTTTTGGGTGAGTTAAAATATAAAAATTCAAAACAAAGAAAAAACAACTATGATGTAAATGTTTTTTCTAAAATGTAGCATTATTAATGATTCTTCGTTTAAAAAGTCTACTATTTTTGATATTTTTCATTAGTTGTAACATTTATGATCCTAGTTCAAAAACTGATAATATTTCTAAAAAATCAGTTCCAATTGAAGAGTTATTACAAAGTCAAACCGACTTACAAAATGAATTTAACTTAAAAATAGATAATGTTATCATTTACCCCAATTCAACTGGTGAAGGATTTTTTTTAGATATCAGTTATAAGAACTATAATCTAAATGATATTTCAATGCTATCTGTATTATCAGATAATCAATTAGTATTAAATGAACCAATAATTTTGGAGAGTAAAAAAGTTGATTATTTTAAAAGATATCTTATTGAAAAAGAATTTATTCCAGAAAAAAATATTCAAATTATTTTTTCTAGTATAAATAAGGAAAATAATATCAATGATAATAGGATTCTTGTAGAAAGAAATTTAAAAATTGATACAGAAAAAATAGCTCTAATTAGTGGACAAATTAGTTTTTTAACAAAAGCTATTAAACAAGAGATTAATAAATCGATAGATCACTATTTTGTGATGCCTTATGAAGATTTCATTAACCTAGACAACTTTTGGACAACGAAGTATGATTTAGTTATTTTAGATTATTTTCCTTTGAAAGAAATACCTAAAAAATGGTTTGAAATCTTTCTTAAAAAATTAATTGAAGACAAATCTTCTCTAATTTTGGTATCAAACAATAATCAAGAAAATTATTTTCGCAAATTATTACCCTTGTTTGGTATCAAAGAAAGTGAATTAATTTTAAAAAACTTTAAACTGTACGAGAATCAAGATTTTCGCTCAGCTTTTTTTTACAATCAATTTCCTTCAAAATTGTTTGATTATGATAATGGCAACATTAATAAAGCAATAGACTGGACATTAAAAAAAGATAAATTAGTTTTTAGCTTTTATTCATCTAAATCTGATTACGTTGAAAATGATGATTTAATTTTATATGGGTATTCCAATATCCAAAATAATGATAAGAAAGTTTTTAGGGCAATTATTAGTAACGATGAAAAACAAGTGTATTTCGAATCTCAAATGTTTCTAAATCCTATTAATAATTATTATTTTGCAAAATTTAGTAGCTTAAAAACAGGATTATATTCAATTTCTATTGTCGATAATGAAAATAATATTTTTTCAGAAAAAAAATTAACTGTAACAGAAAATAATAAATGATAGATATCAAAAAAATTAGAGAAAATATTGAAGTCCTTGAAAATTCTTTAAAAAGAAAAGATCAAACTATTTCATTGTCAAAAATTCTTAAAATGGATAAAGAATTAAGGACTATCACCAGCAATCTAAATATTCTCCAATCAGAACAAAACCAAATTTCGAAAGAAATTGGTAAGATGAAATCTCAAGGAGGAGTTGATAACAAGTTATTTACCAGTTTGAAATCTTTATCATTAAATATTAAAGATTTAGAGTCTAAATCAAAAAATTTATCGAAAAAATTGAAAGATAAAATGTTATTAATTCCTAATCCTCCTCACGATTCGGTTCCTCAGGGAGAAACTTCTGAAGATAATGTAGTTATTAGACGTCACGGTGAAACAAAAAAATTTGATTTCGAACTGAAAGATCATGTTCAAATATGTAATGACATGTCATTAGTTGATTTTGAGGGTGGAGTTAAGATTTCTGGAGGAGGATTCCCTTTAATGAAGGGTAAAGGAGCATTGCTAGAAAGGGCATTGATTAATTTCATGATTGATTATCATTTAAAAAATTATGATTACACTGAATATTTAACCCCTTTTCTTGTAAATCCTTCATCAGCAATTACAACTAGTCAATTACCAAAGTTTTCAGAAGATATGTATTATATTGAAAAAGATGATTTGTATCTAATCCCAACTGCAGAGGTATCAATAACTAATATTCATAGAGATGATATATTAGATTTTAATGAACTTCCAAAATATTATTTAGGTTATTCAGCTTGCTTTAGGAGAGAAGCTGGTTCTTATGGAAAAGATACAAGAGGTTTATTAAGGGTGCATCAGTTTAGTAAAGTGGAATTAGTAAAATTTGTTGAACCAAATAATTCTTACAAAGAATTAGAAAATCTTGTAGTTCAAGCTTCAAAAATACTTGAGTTACTTGAATTAGAGTATCGTGTAGTTGAGCTTTGTTCTGGTGATTTAAGTTTTGCAGCATCCAAGTGTTATGATTTAGAAGTTTGGGCCCCTAAAGAAGGGAGTTGGTTGGAGGTTTCTTCATGTAGTAATTTTGAAGATTTTCAAGCTCGAAGGGGCAATATTAGATTTAAAAATAAAGATGGTAAAGTCGAGTTTGTTCATACTTTGAATGGTTCTGGTTTAGCTATTCCAAGAATTTTTGCTGCTTTACTTGAAACACATCAAAATAAAGATGGTTCAATAAAGATCCCAGCTGCTCTTCAACCGTATATGGGAATTTCAAAATTAGATTCTTAATTAAAAGTTGGATTTTAATAAATCTTTTTCTATGGACCTTTTTGTTTGGTTTTTCTTCTCTAATTGAAATAATCATAACTGGTAAAAAAGAGAATTTTAAACGTTATGGAAAAGGGTGGTCTTTTTTTTTATTAAAGATTTATGGAGTGAAACTAGAAATCATTTATGATAAAAATTTTGACCAATCAAAAAACTTTATTTTTTGTCCGAATCATTCATCACTAATTGATATACCTGTAGTTTTCAAATCAATAGATCAATATATTGTTTTTCTTTATAAAAAAGAGCTTAGTAGAATACCTATTTTTAAAACAATTTTAGACTTTGCAGGTTTTTTCTATGTTGATAGGTCCAATTCTGAAAGTGCAAAAAAAAGCATGAATCTTTTACTACATGATTTAAAAACTACCCCAAGATCTGTTGTAATCTTTCCCGAAGGAACTCGTTCAAAAAAAGGAAATTTAATCGATTTTAAAAAAGGTGCTGCAGTATTTAGTTTAAATTCAGGTTTACCAATAATTCCGGTGGCAATTATTGGCGGAAGGAATTGGTGGGAAACAAAAAAAGTAAAAGTTATTTTTGGTAAAGAAATCAATACTGAAAATTTTAATTATGAGCATAGAATTATCATAACGGAAAAAATTAAAAATAGGATTCAAACTCTTCTTGAAAAATATTGCTAATAACTTTGAACAATTTTATGATCAATCTTCAAACAAAAAGATTGTTTTTACTAATGGCTGTTTTGATATTCTCCATGTTGGCCACATTCGACTTTTAAATGATGCAAAAAAACTTGGTGATATTTTAGTGGTGGGAATAAACTCTGATTCTTCAGTGAAGAAACTTAAAGGAGAAAATAGGCCTGTAAATATTGAATCTGATAGAAAAACATTATTAGAATCACTCAAGTCAGTAGATTACGTTTTTACTTTTGATGAAGATAATCCTTTAAATCTCATTAAAAAAATTAGACCAAATATTCTAGTAAAGGGTGGAGACTATAATGAAAATATTATTGGTTCTGACTTTGTAATTGAGAATGGAGGAGAGGTCAAAATATTATTTTTTCATGAAGGTTACAGTTCTTCAAAGTATATAAATCAAATAAAAAAAGCGTAGCTTGATTATCTTTTTCTTTTCAAATAACTTTCCCCTCAATGTTTTATAAAATATATATATATATAGCAATACTTTTTAATCTATTGATTGGACAAAATAGTTTGACTCAAGCTAGCAAGAAACCATTTATGAACACAGATGATACAAGTTTTTTGTTAGCAGGAAATAGAATTACATCTATTTTGAATGAAGCTAAACAATATTTATCTGATGCTATTATTGCAGATGTAAACCTTGATACTGTTGAAGTCGTGTATAATATCAAGAGAATTTTTGATCTTTTATCTGATGTAGATCAGATAGGAGTAAAAGAAGAAATTGATAAAATAGAATTTGAAAAATTTCAGAATGACTTTATAAAAATTTATACAGATAGACTAAGCACTATAGATCGCTCAACTCAATTTTTAACAGCTGATCTCATCAAAAAAGATATTGCAGATTTTGTTGATGATAATGAAACCGTAGAGATGGGTTCTACTAAATTTACAATAGTTGAAGATAGAGCTGGACATATACCTTTAGTAATAAACAAAGATGTTGAAAGATATATTAGATATTTTCAAGGAAAAGGAAGGAAAGGATATAATATTTGGTTGAGAAGATATGCAGAATATCGGGACATGATTTTGCCAATTTTGCAAAAAAATAACCTTCCTGAAGAATTAATAGTTGTTTCAATGATAGAATCAGGGTTTGATCCCAGAGCAGTCTCAAGAGCAAAGGCAGTTGGTTTTTGGCAATTTATGTATTCAACTGGAGAGCAATATGGTCTTCAAAGAGACTGGTACATTGATGAAAGACAAGATCCTGAAAAGTCAACAGAGGCAGCAGTCAAATATTTCTCAGATTTATACAATGAATTTGGAGACTGGTTTTTAGTATTGGCTGCATACAATTCTGGTCCAGGAAGAGTTAATCGAGCAATCAAATTCCATGATACGACTGATTTTTGGCAATTATATTCATTGCCTGAGGACACAAAAAACTATATTCCATATTTTATGTCTTCAGCAATTATCTTAAGAAATCCTGAGAAATATGGTTTTAAAATTCCGCGAAGCAAGCCATTATCTTATGATGTTGTCGAAGTTGAAAAAAGTGCAGATCTTTCCATTTTAGCAAAGGCTGCTGACTCAAGATTATCAATTATTAAGAAATTAAACCCTGAGTTGAGACAGCCTGCAACGCCATCTAATAAAACTTATCAATTGAAAATTCCATTAGGAAAAAAAGATATATTTATTAAAAATTTTAATTCTATACCTGATGAAGAAAAATTTTCCATTCAGAGAGTTGAGCATAGAGTCGGAAAGGGTGAAAATTTAATTTCAATCGCTTCGAAGTACAGAGTATCAGTTGCAGATTTACAAAGTATTAATGAGATAACAAATGTCAACAAATTATTCATTGGACAAAAGCTTAAGATTCCGATTAAAGGAGGTATTTATTCAAACTATCCTGATAAAATTACTTATGTAGTTAAGAGTGGAGATACCTTGGGGCATATAGCTGAAGATTACAAAACTAGAGCAAGTGAAATTAGAAAATGGAACAATATGGGCAATAGTTCTAGCATCTACCCAGGTCAAAAACTTACTCTATTTGTAAATAGAATCATTGAGAGCTCTCCTAGTCAATCTATTGAATACGTTGTAAAAAATGGTGATTCATTAATTAAAATTGCTCAAGAATATAAAGTTTCTGTAAATCAAATAAATGAATGGAATAAATTAACTTCTTCCATAATTTATCCAGGTCAAAAACTAAAAATAAATACGGATTGAATTAATAAAAATGATTAAGCAAGATATAGTAGATGCTGTTTCCACTTCAACGGGATTATCTAAAGTTGAAGTAGAAACTGTTTTAAACCATGCTTTTGATTTAATTATAAAGGCGCTTGAAAAAAATGATAAAATTGAGTTAAGAGGATTTGGAACTTTCTCTGTTAAGTACAGATTGCCAAAAAAAGCAAGAAATCCCAAGTCAGGTGATCCAATTTATTTGCCTGAACGTTATGTACCTGTTTTTAAGCCATCAAAAAAAATGAAAATAAATGTTAATGAAAAATTAATCGATTATTAAACTGGAGTAATAAATGCCTTGCGGTAAAAAAAGAAAAAAAAGAAAAATGAACACTCATAAGCGTAAAAAACGCTTACGTGCGAACAGACATAAGAAAAAAAATAGATAGAAATTAAATGAAAGCACCCAAAACATTTGCTATTTGGGCTAATTTAGATAAAAAAGAATCTTCTTTGTTACTTGTCTCAATCCTCGATTGGGCCAAACAAAATAATTTAGAAGTTTTTCTTCCAAGCTCTCTTGAAAAAATTAGTGAAATAACTAAAAATTTTAATTTTAGTTATTTTAAAGAAGATGAATCAGTTCCCAGCGTAGACTTCTTTTTGTCTTTAGGTGGAGATGGGACTCTTTTATCTGCAGTTCGAAACGCAAGAGAAAAATCTATTCCAGTTCTTGGCGTACATCTTGGTGAACTAGGATTTTTATCTATTACTACTCCTGATAACATTATTTCAAAACTAAATGCAATTTTAAAGGGAAACTATAGTATTGAAGAAAGAATAGTTTTAAATGCTAAAATATCTAATTCAGAAAAAATATATTTTGCAACAAATGATTTAGTAATCCAAAATCAGAATTCTTATAGAATAACCTCATTATCGTTTAGCGTGAATGATCAAGAGGTTGGCCAGTATAAATCTGATGGTATTATCGTGAGTACACCTACTGGATCTACTGCATATTCCTTGTCGGCAGGGGGTCCTATTGTTCAGCCGGACGTTTTTTCTATTCTTGTTACCCCGATTGCGCCACATTCTTTAACTTCAAGACCACTGGTTCTTCCATCGAACGTTAAAATTACTTTTGATTTCCAAGGTTCCTCAGAAACTTCATTAAATCTAATTTGTGATGGCCAACAAATAATTCATTTTAGTAAGAACGAAACTATAACAATAGTCAAATCCTCGAATAATTTAAAGTTTATAACTTTTGATGATTATGACTATTATGAAATCCTTAGGAAAAAAATGGGATGGGGTAAAAGAGGGGTTTAGCCTTGGATACTTTAAGCCATGCATTATGGGGCAAAGGTTTATTTTCAAATAAAAACTTTGGCAGTCTAGCTTTTTTCTTTGGTGCAATGCCTGATTTATTTTCTTTTGGAATTTTCTTTTTTCTAAAAGTTTTTGAAGGAGATTTTACTTTTGGAAAACCGCCTGAAATAAGTATTCTGCCAGATTGGCTATTTTTCTCTTATGATTTTACACACAGCTTCATAGTTTCTTTTTTATTTATTGGAATAGTCTTTTTTTTCAAAAGAGAATTTTTTATCCCAATGTTTGCCTGGCCATTTCATATTTTATTAGACTTTCCCTTTCACTCAGAAGCATATTTCCCAACGAAAATTTTTTGGCCTCTAAATAATTTTTATGTTGACGGAATTCCTTGGTCAAATCCTAAAGTTTGGTTTTCAAATCTTGCTGGCTTAATATTTCTTTTTGCTTACAGGAAATTCAAATTCGGAAAATTTTTTTAAATAAATTTTTTAAAATATATCCAGCCATCTTAGGGTTTTCTTTTAATCGTCTAATAGAATAGTCATACCAATTATCCCCAAAAGGAAGATATATCCTAACTTTGAAACTTTGACTTAGAAGCTCTTGAAGTTTTTTCTCAATAGGTACACCATGTAATGATTGGAATTCAAATTGACTGTTTGGAATGTTATTTTCAATAATCCAAGATGAAAGATGGTTAATAATTTCTTCATCATGTGTAGCTATTGCGATATAAGAATTGTTTAGCAATCCCTTTTTAACAAGTGAAATATAATTTTCTCTTATTTTATAGAAGTTTTTAAAGACAATAGATTCATCTTCTACATATATTCCTTTACAAATTCGAACATTAAAATTTTCATCAGATAAAATTTCTAAATCATTTTCTGATCTTAACATATAAGCTTGAAGCACTATCCCAACTTTATCATAAATTTTAATACATTCTTTGTATAATTGTATAGTTTCACTGGTATAGGGTGAATTTTCCATATCAATTCGAAGAAAATTATTTGTTTCTTTCGCAGCTTTTAATAGCTCAAATAGATTTTTTTTAACTACATCGTATCCCAAATCTTGTCCAATGTGTGTTAGTTTGATTGAGATATTTGCTGAAAGATTATTTTGATTTATCAATTGATAAATTTCTTTATAATGATTTGTAATCCTTTCAGCTTCAATTTCTGTTTTAACATGTTCTCCCAGAATATCAATTGCTACATCGTATCCTTGATTGTTGAGCTTGAGAACACTATCTATCATTTCATCATTAGTTGTTCCAGCTATGTATGGAGAAGCAACTAACCGAACAAAAGATTTGGGAAGAAAGGGAATAATTGTAATTATTAATTTATTTAGTAACTTCATTAGCGATAAATTTAACAAATTACAAAAAATATGAAAGTAGTATTAATTATTGGAGGTGCAGTTTCAGGTTCAACAGCTGCGCAAAAACTCTCAGAACAAGGAATTAAGTCTGTTATTATTGATCAAAACTCAATGCCCTATGGTAAGATTGAAGATGGACTTCCTAGATGGCATGAAAAACAAAGGATAAGCGAATATTTTAAGATTGACGAAATTCTATCTAATGAACTAGTAAGTTTTGTTCCAAATATGAAGGTTGGATCGGACATTTCTTTAGAAGAATTAATGAACATGGGTTGGAGCTGTATATATTTTGCTAACGGTGCTTGGAAAGATAGAAGTTTTCCAGTGGACGAAATTGAGAGTTTCAAAAATTTTTATTATCAAAATCCTCTAGTTTATTGGTTTAATCATTATCATGAGAATGGTTACCAGGGAGCATCTGTTTCAATTGAAGATAATGTTATCGTTATTGGCGGAGGATTAGCATCTATTGATGTTTGTAAGATATCTCAATTAGAACTTGTCAGACAAAAAGTTGAGTCCAGGATTAAAAATTTTGATATTATAGAAATGGAGCATAAGGGAATTCCAGATTATTTAGCTGAACATGGTATTTCCTATGAAGATCTTGGGATAAAAGGAACAACTTTAATTTATAGAAGAGACATTGAAAGTATGCCACTAACCACTATTCCAGATGATTTAAGTGAAGATATGATTGAAAAACGAAAGATGGCTCGTAGAAAAATCCTTGAAAATACTACTTCAAAATTCTTATTTAAAGTCTTAGAAAATACTCAACCTTGTGGGATACATTTAGAAAACAATTTACTAGTGGGTCTAAAGGTTTTAACAAGCAAAAATATCAATGGTGAATTAAAAACAATTGAGGATTCAGAAAAGGTTATCAAAGGACAAACTTTTATTAGTTCAATTGGTAGCCTTCCAGAACCAATCCAAGGCCTTCCAATGAATGGTTCTGTTTATGATATTGTAGATCAAAATTCTGGAAAATTTAATCATTTGGACTCTGTCCACGGAATGGGAAATGCCATTACCGGTAAAGGAAATATTAAAGCATCTAGAGTCAGTGCTAAAACTGTGAGTGAATTAACAATGGAAGATATTATTGAAATTGATTCTGATTCTTCAGAAAAAATCTTTGAAAAAGTTAAAGAGTGGCAATCAAAGAATAATTATGATGGAGATTATTTTTCTTGGAAAGCTAAAGTATCTCAAAAATAAATTTAAAAATCCTTTAATTCGATAATCTTTTTTTCTTATCTTCTCGGTGCCAAAAATCAATTTTTAAATGAAAAAGATTACAATCAAAAAAGGTCATGATATTAATGTAGCTGGAAAGTCAAGAATTGATTCATTAAGTGAAAAATTCTCTGAAACAGTTTCTGTTTCACCAGTAGAGTTTAATTATATAAAACCAAAATTATTAATTGAAGAAGGTCAGTCAATCAGAATTGGTGAGCCAATTTTTTATGATAAAAATAACCCATCTATAAAATGGCCATCCCTTGCTACTGGAGTAATAGAGAAAATTGAGTATGGAGAAAGAAGAGCTGTATTAAATATTATTACTCGTATAGATCATGAAGCAGAGAATAGGCAAACTTCTCAAATAACAAATCTTAGTTCTCGGGATGAAGTAATTAATTTTCTTTTAGATAAAAATTTATTTCCTTTTATTCAAAAACGTCCATTTGATATTGTAGCTAATCCTGATGAAAAACCTAAAGCTATTATTGTTAGCTTTGCTAATACTGCTCCCCTTGGAACAGATTTCAATTTTTCTTTGTCTCAAGAAACAAAATACATCAATGAAGCATTGAAAAACCTTAAAACTCTAACGGTTGGTAAGATTTATGTCGCTGTAAATTCTTCTCAATTTGATTTTGTTGATGATTTAGAATTTGTAGAAAAAATCATTGTAGAAGGGCCTCACCCTTCAGGTAATGTAGGAGTTGTTCTCAATCATGTAGATCCAATTAATAATAAAGACATTATTTGGACCATAAAACCACACCACTTAGTAATTCTTGGAAAAGCTTTCTTAAATGGTACTTATGATTTTAAAACTATGATAAATCTTGCTGGACCAGGTGTCAAAAATCCTTGTTATATTAGCACAAGATTAGGAGCCAATCTAAATGCTTTGTGTAAGGATAATTTGATTGATTCCAGTTTGAGAATAATCTCAGGAGATGTTTTAACTGGAAAGCAAGTATCAATTGAAAATTTTTTAGGTTTTTACCACTCTTCTGTTTCTGTCATACTGGAGTCTTTTGATAGACCTTTTATCGGATGGCTTCATCCTGGTGGTAAATCAAAATATAGTGTTTTCAATGCCTATTTTGGTGGTAATAAAAATCCTTTTGAATTTACTACTCTTCAAAATGGAAGTCATCGTGCTTTAGTTCCAATTGACGCTTGGGAAAAAGTTTTTCCAATGAATATCTATATCAATGCTTTAATTCGTAGCATTGAAGCGGGAGATTTTGAAGAAATGGAGAAACTAGGTATCTATGAATGCTCTGAAGAAGATGTTGCTTTGTGCTCTTTTGTTTGTCCATCAAAGACTGATGTTGCTGGGATAATTCGCAAAGGTTTAAATATGATTTATTTGGATAAATAATGAAGTTTTTAAAAAATATTTTTGAAAAAACAGGAAAGTTAGTAGAGAAAGATAAACCGCTTTCTTGGGCTTATCCAATTTGGGAGGCTGCTGATACTATATTCTTTTCTACAGATAGTCAGACCCAATCTGGTCCCCATATTAGAGATAATATGGATATTAAAAGGACAATGTTTTTTGTAGTGATAGCTCTAATTCCATGCTACATATTTGGTTCGTATAACATTGGCTATCTATATTCTAATGCGTTAAACATTGAATCTAACTTTTTAGCTTCATTTCTTTTTGGGTTAAAATTTGTTCTTCCAATCTTGATAACTACTTTTGTTGCTGGAGCAATTTGTGAATTAAGTTTTGCGATTATAAGAAAGCATGAGGTAAACGAAGGTTTTCTAGTTTCTTGTGCATTGATTCCTTTAACCTTGCCACCGAATGTTCCTCTTTGGCAAGTTTTTATTGGAACTGCTTTTGGTATTATAATTGGGAAAGAAATTTTTGGTGGCGTTGGAACTAATATTTTCAATCCAGCTCTTACCGCTAGAGCTTTTATGTATTTCGCTTTCCCAACCAAAATGTCCGGTGATAAAATATGGGCTATTGGCGTAGATGGTTACAGCGCTGCAACTGCTTTATCTATTCCTGCGAACCCTAAAAATTATGACACTGCATCCAATTTATTTTCTCAAATAACTCAATTCGATTTTTCTAATATGAATTTATTTTGGGGTCTAATTCCTGGTTCCATTGGAGAAACAAACAAATTGTTGATTTTATTAGGAGGTCTTTTCTTAATATACTGTGGTATTGCATCATGGAGAATAATGCTTTCATCAGTAGTAGGGTTAATTCTAACCGCCTCTATATTAAATTGGCTTGCCCCTTTCTCTACGAATGCAATGTTAACCATAACGCCTTTACAGCATTTATTAATTGGAAGTTTTCTCTTTGGGATAGTTTTTATGGCAACTGAACCAGTAACTTCCTCTCATACTAATCGCGGTAGATGGATTTATGGATTTTTTATAGGTTTTTTGACAGTAATTATTAGATCAATCAATCCAGCATATCCTGAAGGAGTAATGTTGGCCATTTTAATTATGAATATGTTTGCCCCTCTAATTGATTACTATGTAATTCAGTCAAATATTAAAATGAGGTTAAGTAGAAATGCATAGCAATGCTTATACATTAGGATTTGTCTTTGTAGTAACTGCTATCCTAGGATCTATTTTATCCTTTACCAAAATCAACGTTAGAGATTTGCAAGATTATAATTTAAAAGCTGATGTTAAAAAAAATATTTTAAGGTCCTTAAGTTTTGAAGAAGATGTTGAAAATCCATGGACAAATGACTTAGTAGAGACAATTTTTTCTGAAAACGTTCAAGCTTTTTGTGTTGATAAACTAGGCAATAAAATTGATTGTGTTTTAGAAGATGTTGATATTGAAAAAAATCAATCTCAACTTCCAGTCTATATCAAGGTCGTGGATGGTGATATTGCTGGAATTGCTCTTCCCGTTGCTGGAAAAGGTCTTTGGTCAACTATATATGGTTATATTGCTTTAGAACCTGATACCGACACAGTTTTGGGAATACAATTTTACAAGCATGGTGAAACTCCAGGATTAGGTGGAGAAGTTGAGAAAAGTTGGTTTATCAATAACTTCAAAGGAAAAAAAATTAGAGATATTCAAGAAGAAATTATTGGTATTGAAGTAGTCAAAGGCAAGGTTAATCTAGAAAATTCTAAGTCTATCCATCAAGTAGATGGTATTTCTGGAGCTACTGTAACAGGTAGGGGTGTTTCAATTTTTATTGCTGAAGATTTAAAGAGATATGAAGAATATTTAAATAAGGTTAGAACAAGTGGAACTATTTAACTCAGAATCAAAAAAAATCATTTCTGATCCTATAAATGTAAATAATCCAATTTCTTTACAAGTATTAGGCATTTGCTCAGCGTTAGCAGTTACAATTAGAGTGGATCAAGCTATTATTATGAGCTTGGCTGTGATTTTTGTTCTTTCTTCTTCAAATGTAATATTATCTGTGATTCGAAATTTTATTCCTAACCGTGTTCGAATTGTTATAATGCTTTCTGTTATTGCATCCCTAGTTTCAGTTGTTGATCAATTATTGCAAGCTTACATGTATGATATGAGCAAGCAACTATCTGTTTTTGTAGGTTTAATAATTACTAACTGTATTGTTATGGGTCGAGCTGAAGCATTTGCTTTAAAACATGGTCCTTCAAAAGCATTTCTTGATGGCATTGGTAATGGTCTAGGATATGGGATGATTATAATTATCGTATCTTTCTTCAGAGAACTTTTTGGTTCTGGTACAATAACTTTGCCAGATGGAGGAGCAGGATATGTATTGTTTTCTATACCTGAATCCTGGTATGCTGCTGGATATGAAAATATTGGGTTATTAGTACTATCTCCTGGCGCATTTATCATTCTAGGATTAGTTATTTGGTTTCAAAGAGAGTTAATTGGAATTGAAGAGGAGGCTTAGATGGGTTTAGAACATTATTTGAGTATTTTTACTAAAGCAGTTTTTATTGAAAATATTGTATTAGCTTATTTTCTTGGTCTCTGTTCATTCTTAGCTATATCTAAGAAAATAGATGCTTCAGTTGGGATAGGAATGGCAGTTGTGGTAGTGCTCACAATAACAGCTCCAATTAATTGGTATTTATGGGAATTTCTATTGAAAGACGGAGCATTATCATGGATTCATCCTAGCCTTTCAGAATTAAACTTAGACTTTTTAAAATTGATTGTTTTTATTTCAGTAATTGCTGCTATGGTTCAACTAGTTGAAATTTTTATGGAAAAGTTTTCTCAATCTCTTTATAACAGTTTAGGAATTTTCTTGCCTTTAATTGCTGTGAATTGTTCAATACTTGGCGGATCTTTGTTTATGGTGGAAAGAGAATACCTATTATCAGAGACAATCGTTTATGGATTTGGTTCAGGAGTAGGGTTTCTTTTAGCAATTGTTGCACTTGCATCTGTAAGATATAGGCTTAGATATTCAAATATTCCTCCAAGATTAAGGGGTGTTGCGATGGCAATGTTATTGACTGGATTATTATCAATGGCATTTATGGCATTTTCAGGAATTGATTTATGATTTTTGAAGTATTAGTTGGTGTTTTAGTTTTTACTATAGTCATTATTCTTTTGGTTATATTACTCAATTTTATTGGCAATCTACTACTGCCGCAAGGTGAAGTTTCTATTGTAATTAATGATGATGCTTCTAAATCTTTAAAAGTTCAAACTGGTGGAACTGTTTTGTCTGCTCTTGCATCGCAAAATGTATACTTACCTTCAGCATGTGGAGGTCAAGGAACCTGCGCTCAGTGTAAGTGTCAAGTTATTGAAGGTGGAGGCGATATCCTTCCTACCGAACAAGCATATATTAGCAGAAAAGATCAAAAGGATCATTGGAGATTAGGTTGTCAAGTTAAAATCAGAAATGACATGAAAATTAAAGTTCCGGACGAAATTTTTAGTATTCGAAAGTGGAATGCAATCGTAAAATCAAATAATAATGTGGCTACTTTTATTAAAGAATTAGTTATTGAACTTCCTAAGGATGATCCTATTCATTTTGAGTCTGGAGGTTACATACAAATTGATGTACCGGCATATAATAATATTGAGTATAAGAATTTTGAAATTGAAGAAATCTATAGAGATGATTGGGATAAATTTGATGTATGGCAATATACTGCTGAGAATAAAAATCCTATTTTTAGAGCATATTCAATGGCAAATCATCCCGCTGAAGGAAATATGATTATGCTTAATATTAGAATTGCTTCTCCTCCTCCAAATATGCCAAGCGTTCCTCCAGGAATTGCTTCATCTTATGTATTTAATTTAAAACCTGGCGATCAAATAACTGTTTCGGGTCCTTATGGTGATTTTCATATAAAAGATACCGAAAGAGAGATGATTTATATTGGTGGTGGTGCCGGTATGGCTCCCTTAAGATCTCATATTTTTCACCTTCTTAAAACTGAGAATACTAAAAGAAAAGTTTCTTTTTGGTATGGTGCACGTTCTGTGAAAGAAATGTTCTATGATGAAGAATTTAAAGATCTTGAAAAACAATTTTCAAACTTTAGATATCAAGTTGCGCTTTCAGATCCTCTTCCAAATGACAATTGGAAGGGTCCAGTTGGGTTTATTCATCAAGTCGCTCTTGATTTATACTTAAAAAATCATGAAGACCCAACAGAGTGTGAGTACTATTTGTGTGGCCCTCCTATGATGATCAGTGCAGTTCAAAAAATGTTATGGGATTTAGGAGTTGAAGAAGATATGATTGCTTATGATGACTTTGGTTAAAAAAAACCTCCCATATATTTCTTTCATTACATTATCACTTTTAATAATCTATCAATTACTATCCAGGAATGAAATTGTTCTCTCTGGACAAACTATGGGTACAACATACTCAATAAAATATATTCCTAAAAATTTTTCATTAAAAAAATTAGATCAAAGTAAAATTGTCAATGAAATTTTAGAAGAAATTAACCAACAGATGTCCACCTATATTACAGATAGTGAAATTTCTAATTTTAATTCATTTTCAGATACTTTATGGTTTGATATCTCCCCCGAATTTGCTGAAGTAGTAAACACTTCATTTGAGTATTATCAATTATCAAATGGTTTATATGATATAACCGTGATGCCATTAGTGAATCTATGGGGATTTGGTCCTGAAATTTTTTTGAATAAACCATCACAGGAAATGATAGATGAAAAGTTAGAATTTGTGGGTCAAGATTTATTGGAAATTGAAGGGAATAGGATTAGAAAAAAACATCCAAAAGTTCAAATTGATTTGAGTTCAATCGCTAAGGGATACGCTGTAGATAGATTAATGAAATCACTGACATATGAAGACATAATGATTGAAATTGGTGGAGAAATAAGTACAAGATCTAACAAAAAAGATTGGAAAGTTGGAATTGTTTCTCCCAGTCTACAAAATTCACAAAATGATATTGAAGAAATTATTTCTTTAAATAATTTGTCATTGGCTACTTCTGGAAATTATAGAAACTATTACTTTGATAAATCTCAGTCTTTTTTTCATCATGGGATTAACCCCAAAACAGGTTATCCAATTACTGCATCCTTAGGTTCGGTATCAATTTTGAGTGAGAAATCATGCATGGATGCAGATGCATTAGCTACAATGGTTTTTGCTATGAGTAATTTAGAAAATTTAGAGGACTTCTTAGATTCAAAATCAATTAACTCTATATTAATATTTCTGACTAAAGACGGAAACTATCAAAAATCTTTTACTGGTTCTTTAAGAAAAAATAATTAACTCTCACATTTAGAAATGTCTCCACCGCATATTTCACACCCATCCGGGGAAGACCCACAACCTTTTTTTAGAGGTTTATTTTTAAAAATCAAACCAATATTCATTATAAAAAAGCATATAATTAATATTGAAATTACAATTAGATATTCCATGAAATAATTTACTAATTTAAATCGATTTTTCTAAATTTTTAAACACCTTATTGGTATATTCCCACTATGAATCTAGTATCACATCCTCTCGGAATTTTTGCTTTAGTTATTTTTACAATTGCTTACGCTTTTGTTATGACTGAAGAAGTAACTCATTTAAGAAAATCTAAACCAGTTCTATTTGCAGCAGGAATTATTTGGGGTTCTCTGGCATGGTATGCAAGATTGCATGGTCATGCTGAGCATGTCGAAGAATCAATTATGCATGCTTTTGAGGAGTTTTCTCAGCTGATGTTGTTCTTGTTAGTTGCAATGACCTATATCAATTCTATGACTGAAAGAAATGTTTTTCAAAAATTAAGATCTATTTTGCTTGAACAAAAATATTCCTATAGAAAACTTTTTTGGATTACCGGAATAATCGCATTTTTCTTATCTCCAATAGCTGATAATTTAACAACTGCTTTGACAATGTGTGCAGTTGTTATGGCTGTAGGAGCAGGAAACAAAAATTTTGTTTCTATAAGTTGCGTTAATATCGTTGTTGCTGCTAATGCCGGAGGGGCTTTTAGTCCATTTGGAGATATTACAACTTTAATGGTATGGCAATCTGGTCATGTAGAATTCACCCAGTTCTTTCATTTAATTTTACCTTCTTTAGTAAACTTTTTAGTTCCAGCATTGATAATGAGTTATTTTATTCATGGTTCTTCTGTGGATGTTGAAAATAAACCGGTTAAACTTAAAAAAGGTGCAATTCCAATTATCTTTTTATTCTTGTTTACTATTTTTCTAGCTGTATCTTTTGAGAACATTTTACATTTACCTCCTGTTTTTGGGATGATGTTTGGTCTTAGTTTGCTTCAATTGTATGGTTATTACCTTAAAACTTCATATTCAAAATCCACAGAAATTCAACGAGATGGTTCTGATGCCCCATTTGGTATTTTTCAGCAAATTGCCCAGGCAGAATGGGACACATTATTATTTTTCTATGGCATTATACTTTGTGTTGCAGGTTTAGCTGAAATGGGATATTTAGCTATGTTGAATACTTTTCTTTATGAAGGCTATGGTTTTACAGTCTCAAATATTTTAACAGGAATTATTTCAGCAGTAATTGATAATATCCCTGTTATGTTTTCAGTTTTGCAGATGCACTCTCAAGATGCAATGGATTTGAGTCAATGGTTGTTAGTCACCCTAGCTACCGGAGTTGGAGGAAGTCTACTATCGATTGGGTCTGCTCCTGGTGTAGCTTTAATGGGTCAGGCAAAAGGGTTGTATACATTTTCTAGTCACTTAAAGTGGAGCGGGGTTATTTTCTTGGGGTATGTTTTAAGTATATTGGTACATCTTTTATATTGGGATTTAATTTAATGAGAATAACAAAAGTAACTACTCGCAATGGAGATTATGGTAAAACAAATCTGGCTAAGGGTGATGTTGTTTCAAAAGATAGTTTAATTATTAAAACTTTAGGTGAAATAGATGAACTGAATAGTCATATTGGTTTTGCAATCTCTTTAATCAATGAACCTAATATTGTTGATGAGCTTAAATCGATTCAAAATCATCTCTTTGATATGGGTGGTTTGATTTCTTTATTTGATAATGAAAATAGATTTAGTCAAGAAAAAGTCATTTTTCTTGATCACAGAATTGAATATTATAATTCAGAATTAAGTCCATTGAGCGAATTTATACTTCCTGGGGGAGATCAATTCTCTTCTTTGCTACATATTTTGCGAACGATAACCCGTCGAGCAGAAAGAAGTCTTGTCTCACTATTTCTAGAAACAATCAATGATGACAATAATATGTTAAAATATCTAAATCGATTATCTGACTATTTCTTTGTTCTTTCTCGTCAATACAATCATCAAAAAGGAATTAATGAAAATATTTGGAAGAGATAACTTCTATGGATTTTAAATCAATTAGTTCTCTTATATCAAAAAGCAATAAAATCTTCATTTCTTCTCATATCAATCCTGACGGAGATAGCCTAGGATCTTCATATGCAGTTTACCATCTTCTATCTCAATTGGGAAAAGATTGTATGATTATTAATCATTCACCATTACCTAAAATGTATAATTTCTTAAACAAAGAAAATATATTTTATGAACATAATTCTGAAACTGCCGCATTTATAAAGAATTCCGATTTAGGGATTATTCTTGATATTGGAGATTTTTATAGATTGGGTGATGTAGCCCTTCTTCTAGATGAAATTGAAAATATTGAACTACTAAATATTGATCATCATAACATCACTGATTTAAAAAAGTTTGATTATAATTTTATCAATACTAAATCATCTTCTGTTGGAGAGATAATTTATGAGCTAGTAATAAATGAATTTGATAACTATATGTCGAAAGAGATTCTTGAAGGAATTTATATTGCTGTTTTAACCGACACCGGTTCATTTAAACATAATAATACTACCGAACTAAGTCATTTAATTGCTAAAGAGTCAATAAAGCGGGGTGTCGATACGACAAAAATTTATCAAAGTATTTATGAAAACTCTTCAAGAAGTCGAATTAAATTACTTGGGAATGTTATTCAGAATTTAAAATTTGACTGCAATAACCAGCTAGTATGGTTTGGTGTAAATCAAGATATGATAAAAGAAGTTGGAGGAAGCAATGAAGACTTTGAAGGCTTTACAGATTTTTTCAGATCTATTAATGGTGTAGAAATTTCTCTAATGTTATACGATTTAAAAGGTAAGGTAAGAATCAGTCTTCGCTCAAAAGGATTATATAAGGTAGATGAATTAGCTAAACAGATGGGTGGGGGTGGTCATCCATATGCTTCTGCTGCTCTTATTGAGGGAGATTTCTCAGAGGTTAAAAAAAGTGTTTTAAATTTGATATCCAACTACATAAATCAAACTAAGAAATAATAAATGAAAATTATTTTAGCAAAAGATGCAGGATATTGTTTTGGAGTAAGAGATGCTGTAAATAAAGCATATGAGATTGCTGATAAATTTGGCGAAGTATATATGTTGGGAGATATAGTACACAACGAAAATGTTGTTAGAGATTTGGAGAGTAATGGGGTCAAGGTTGTAAGTGAACTAGATCAAATTCCTGATAATAAACCTGTTCTCTTCCGAGCTCATGGTACACCAAAAGACGTATGGGATTCTGCTCATAAAGAAAATATGAACATTATTGATGCTACTTGTCCCCTTGTTCATGAAATTCATCATGAAGTAAGAGCATTGCATAAAGAAGGAAGAAAAATTATCATTATTGGGGATCATGGACATGATGAAGTGATAGGTATTGCAAGTCAAATTCCTGATCCTATTATTGTTTCATCAATTGAAGAAGCTAAGGCGCTTCGAAAAACAAAGAAGGCAGGTGTAGTAAGTCAATCAACTCAAACTATTGAAAACGTTCAAGATATTATCAATGTTTTAATGACAAAAGTTTTTGATTTAAGGTTTGTAAACACCATTTGCTATCCTACCAAAAGAAATCAAGAGCAAATTAAGGAGCTATCAGTTAACACTGATATGATGATTATTATAGGGTCATTTACGAGTGCTAATTCTAAAAGATTAACTGAATTAAGTTTGAGTAAAAATAAAAAAACTTTTCAAGTTACATGTGCTGCGGATATTGATTCAAAATGGTTTGAGAATAAGATAAGCACATTAGGAATTTCAGCTGGAGCTTCAACTCCAGACTGGATAATTGAATCTGTAATTAAAAAAGTAAAAGAAATAACTAAAACAACATCAAAGGAAATTATTTATGAGTAATAAAGATACATTTAGAGAAAAAGTTGCTCTCGCTGAAATGTTAAAAGGGGGGGTAATTATGGATGTAACTAATGTTGAACAAGCCAAGATTGCAGAAGAATCTGGAGCTGTATCCGTGATGGCTTTAGAGAGAATTCCTTCTGATATCAGAGCCGATGGTGGTGTTGCTAGAATGAGCAATCCTCAGATGATAAAAGAAATTCAAGAAAATGTTTCAATACCAGTAATGGCCAAATGTAGAATAGGTCATTTTGCTGAAGCGCAGGTATTGGAAGCCCTTGAAGTTGATTTTATTGATGAAAGCGAGGTATTAACAATAGCTGATGAAGAAGCGCATATTTTAAAACATCCTTTCAAAGTGCCTTTTGTTTGTGGTGCCCGAAATTTAGGAGAAGCTTTAAGAAGAATTGATGAGGGTGCTGCAATGATTAGAACTAAGGGTGAAGCTGGAAGTGGCAATATTGTTGAGGCAGTTAGACATATGAATATGATTAATAAACAAATTATTGAATTAACAGATAAGAATCTGGATGAAAAATCTTCTGAATTCAGAGTACCAGTTGAATTAGTTAGATATGTCTTTCAGAATAAGAAATTACCAGTACCAAATTTTGCGGCTGGAGGAATAGCCACTCCAGCAGATGCATCATTGATGATGCAACTGGGTGCAGAGACTGTATTTGTAGGTTCTGGTATTTTCAAGAGTTCTGATCCACTTGAAAGAGCTAAATCTATTGTACACGCTGTTACTCATTATAAGAATTCTAAAGAAGTATTGAATGCTTCCTTCCACCTAAAAGATGCAATGAAAGGAATTTTAATGAGTGATCTTAGTGAGAATGAGAAGTTTTCTAATCGAGGAGATTAAATTGATTGGAGTTTTAGCATTGCAGGGAAATTTTCAATCCCATTTGGAAATTTTGAATAAAATAGGAAAGACTTCGAAAGAAATTAAATTTTCAAAAGAACTTGATGAGGTTGAAGGTTTAATTATACCAGGTGGGGAATCCACAACAATTTTTAATCTTCTTAATAGAGAGAAAAATTTTGTCAGTGAAATTAAATCATTCGCTGATTCATTTCCTATACTAGGAACTTGTGCAGGCTTAATTTTAATGTCTCAATTAAAAAATGATAAGATTGTGAAATCCTTAGATATTATCGACGCATTAATTGAAAGAAATGCTTATGGTAGACAAATCAATTCTTTTTCAGCTAGTATTCAGCTAAAAAATAATTTATTTCAAGAAAGATTAATACAAGGTTCTTTTATTAGAGCACCTAAAATTATTTCTTACGGAGAAAGTACTGAACCATTTGCCTTTTTTCAAAACGAAGTAGTTGGAGTAAAGTCTGGTAAGCATTTTGGTATAACTTTTCACCCAGAAATTTTTAAAGAAACATTTATCCATGAAATATGTTTTAGTTAAAAAATGAAATATTTAAATAAAATCAATTCTCCAAAAGATCTTAAAAATTTTTCTAAAAATGAATTACCTGAAATATGTGATGAATTAAGAGGGTATATTACTGATACAATTACAGAAATAGGTGGACACTTAGCTCCCACTTTAGGAGCAATTGAGATAACTACTGCATTACACTATGTCTTCAATTCTCCTGAAGATAAAATTATTTGGGATACTGGTCATCAGGCTTATGCACATAAAATACTAACAGGTCGTTTTAATCAGTTTTCTACAATACGTAAAATAAATGGTTTGAGTGGATTTTTAAAAAGATCTGAAAGTGAACATGATTTTTTTGGAGCTGGGCATGCTTCTACATCTATTTCAGCTGGAATCGGTTTTGTTGAATCTAGAGAGTTAAACAGTGATAATTTTAAGGTTGTCAGCGTCATAGGCGATGGAGCAATGAGTGGAGGTTTAGCTTTTGAAGCGATGAATAATATTGGACATCAAAAGAAGCAATTCTTGCTTCTTTTAAATGATAATGATATGTCAATTAGCCCAAATGTTGGAGCATTTAGAAATTATTTATTAAAGATTTCAACTAATAGATATTACAATGCTCTTAGATCTAGGTTTGCAAAATTAATAACAAAATTTCCAAGACTTTTGAGATCTTTTTTCTTTAAAGCAGAAAAAAGTATGAAAAGTTTTTTTCTTCCAGTTACAATTTTTGAGGAGTTGGGCTTTAGGTATTTTGGTCCTGTAGATGGTCATAATGTTGAAGAATTAGTATCAGTATTTAATAGGATCAAGGATATTAATTCTCCTGTTGTTCTACATGCAATAACTAAGAAGGGTAAAGGAATTGATTATGCTGAAAAAGATCCAGTCAAATTTCATGGAGTCAAACAAAAAGAAAATAAACCTTCAACTTCTTCTTCTGTTATTTATCAAAATGTTTTTGGAAAAGAGATCGTAAGATTAGCAAAAGACAATAAAGATATTGTGGCGATTACTGCTGCTATGAAAGAAGGAACAGGCCTAGTAGAATTTGCCGA
>sequence04
AAAAGTTAGAAGAAGTCCAAAACCTAATTCTTGGAGAACATGATTTTTTGTCATTTTCTAAATTTAATGAAGATGTTTTGAATACAAAATGCACGATTAGCAAATCAAGTTGGTACTTAGAGGAAGAAAGGCTATATTATATAATTGAAGGTAATAGATTTTTGCACCATATGGTTCGATATTTAGTAGGTACAATGATATCCGTAATGAATAATAAGATCACAATTCAGAACTTCAATGATTTGCTTTCAAAACCTTTAAAAAACACTAATTTATTTAAAGCACCTGCTCATGGACTTAATTTAGAAGAGATTTATTATGAATAAGAATTTTACACTTTTACTAGTATCTTACATATTTTTAAGCTGCCAGCAGGAAAATTTTGATTCTACAAAAGTTAATTTAAAATCGTTGAATACTAGTCAAGAAAACGCGATTACAAATGCAATTCAAATAGCGTCTCCTGCAATTGTAGCAATTTATGCTGATCAAATAAATTCCACTTTTGAAAAAGTTGGATGGTTTTATAAAGAAGATTTAGTTAAAGAAAGAACTAGGGGATCAGGATTTTTGATAAATTCTGACGGATATGTAATAACAAATGCCCATAATTTTATTACTTCCACGACAAAAGGATATGGAAATATAAAGGTTGTTCTAATGGGCGGTAAGATATATAATGCTGAAGTAGTAGGTTATGATATTGTATCTGATATCGCATTATTGAAAATTCCAGGATCAGATTTTGACTTTTGTTATATTGGAGATTCTAATAATTTGATGATAGGTGAATGGGTTATTGCAATGGGTAATCCTTTAAACTTATCATCAAAAAATGATTTTCAACCAATTGCGTCCGCAGGAATTGTTAGTGCAACCGGTGTGAATTTAGGTTTTCAAAACAAAGTAAACTTGAATAATAGAATTCAAACTGATGCAGCTATAAATCCAGGAAATAGTGGAGGTCCATTGTTAAATTCAAATGGGCAAGTAATTGGTATAAATAGCTTCGTATTAGACAACAACCAGAACTTAGGCTTTGCAATTCCAATTAATTATGCAATCAAAATTGCAGAAAATTTAAAACTTTCAGCATTAAATAATGATTTTGGTTTTATTGATCGAAGTTGGGATAGTGGGCTTTCTCTAAGAGATGTGAATATCAATGGTCAAAAGAACGTCATCGTTGACTATATTAACTATGATAGCTCAGCTTCAAATAAAGATTTATATAGAGGTGATAAAATTCTTCAAGTTGAGGACTATAAAATATATTCTATTGAAGATTTTAAAAATGTTTTTGATATTTATGATTTTTTACCTGGAGAAAGTTTAAATCTTCTGATAGAAAGATCTGATGAAATTTTGCAAGTGGAGCTAATTATAGGAAAATATGAAAAATAGGGGATTTAAAAATATTTTTTTGGGCTTATTTATTGGGGCTCTAATTGGTACGCTTTTAGGAGAAATTCTAAGTTTTATATTACCAGATGGAAGTACCGTTGAACAGTTTTTTATCAATACTACTGAATTTGTCTTTGGATCATTTGACAATACTTCTGCAATTGTTGACTTAGGGATAATAGCTTTTAATTTTGGTATTAAATTTAAATTCAATGTTTGCAGTTTAATTGGTTTCGGGATTGCATATTATTTATTAAAATACTTAAGATAATTTAAGGGGAAATTATGTTTAATTTAGGTACAGGTGAATTAGTAATAATCTTTTTAATCCTTCTATTGCTTTTTGGCGGTAAGAGATTACCGGGATTGGCAAGAGGCTTTGGCAAATCCTTAAGAGAATTTAGAGGAGCTCTAGAAGAGACAAAAGATCAAATTAATAATTCCGAAGATTCTGATAAGAATTAATGATTAAGTCTAATTCTTATAATCAAAAGTTTAAAAATTATAAGGATAAAATTTATTCTAGCTCAACTAATTCAGTAGTTCGAACAAGATTTGATTCAGTTAAGGAAAATCCAAAAAAATTGCTCTCAAATAAATTCTTTTTAATTAAAGATAATATTTCAATAGCAGGAGAGGAATTAACTTGTAGTTCAAAAATCTTAGAAGGTTATATTGCCCCTTATAATGCAACTGTTATTTCAAAAATCGAACAAAATGGTGGTTCAATAATTGGTCAAACAAATATGGATGAATTTGCGATGGGTTCTTCATCTTCATTTTCAAAATTTGGACCTGTAAAAAACTATTATAATAATTCTAAAGTAGCAGGGGGTTCAAGCGGTGGATCTGCAAATGCTGTTGCTGAAGGTTTGTGTAATATTGCACTTGGATCTGACACTGGAGGTTCGGTTAGACAACCCGCTTCATTTTGTGGAATTTATGGTTTAAAACCAACCTATGGACGTGTATCACGGTATGGATTAGTTGCTCACGCATCTTCATTTGATACAATTGGAATTCTATCTAAAAATTTAGAGGAAGTGATTGATACATTTTCAGTAATTGCAGGTTATGATCCAAATGATTCTACTTCAGTCAACTCAGATGTTCCTTCTTTAAAGGAGTTAAAGACGATAAAACTGCCAAAAAAAGTTGGTGTGTTAAGTAAAGATTTTTTAAAAAATATTAATCCAGAGATATTTGATATTTATTTTTCAAAAGTAAAAAAAATAAATGAACTAGGAATAAAAACATCAGAAATTGAATTACCTTATTTTAAATATTGTTTACCAACTTATTACATTTTAACGATGGCAGAAGCTTCATCTAATTTATCCCGATTTGATGGCATTAGATATGGCAATCGTCAAAGCGATGAAGATCTGAATAATTTATACTTTGAATCACGTTCATTGGGATTTTTAAATGAAGTAAAGAGAAGAATAATGTCTGGAACATTTATTTTATCTTCTGGTTTTTATGATGCATATTTTTCAAAAGCTTGCAAAGTAAGAAGACTAATCAAAAATAGTTATGATATGCTTTTTGAAGAAAATGATGCTTTATTTATTCCAACAACTACATCGGTAGCACATGATATTGATAGAAAGAATTCTAGTCCAGTTGAAGCTTATCTTGCGGATATTTTTACTGTTACAGCTAACCTGTGTGGAATTCCGGCTTTAAATATTCCTGCAGGATTTTCGAAAAAAGAAAACCTTCCATTTGGTTTACAAATTTTATCAAACTCTTTTAAAGAAGAAACTTTATTTAGTTTAGCGCATTTATTAAAAGAATAGATAATTGAACAAGTAGATTTTATGATATTTCAGAATCCACAATTTTTTCTTTTTTTTATATTTTTAGCAATTATAATTGTTCTTCGAAAAGTTTTTTTTTCTAAAAATGACTCTAAACTGCTTTTTTCCGATTTTAGCAACCTGCAAGATTTTTTTGGAAAGAGAGGTCAATTTAAAATTATTTTTCTTAATTCTATATTCTTCTTAATGATTTCTTTAATAATAATTGCTTTAGCAAGACCTACTAAAACTTTCTCAGAAGAAAAAATTGAAGTTCAGTCAATCGACATTTTATTAGTTCTAGATATTAGTAGCAGTATGCTTGCTGAAGATTTTCAGCCAAATAGGATTGAGGCTGTAAAATTATCAGCAAAAGAATTTATTAATAATAGAAAATCAGATCGCATTGGATTATTAGTTTTTGGAAAAGAGACATTTATCCAGTGCCCACTAACAATTGATTATATTGTTTTAAATAGCCTTTTAGATGAAATAACAGTTATTGATCCACAATTCGATGGTACAGCTATAGGTATTGCACTTGCAACTGGTATAAATCGTTTAAGAACAAGTACCTCTAAAAGTAAAGTAATGATACTTTTATCAGATGGAAGTAATAATGCAGGTTCAATTGATCCGATAGCTGCAGCAAAAATTGCAAATGAAAACGATATTAAAGTTTATACTATTGGTGCAGGGACGAATCAAGCAGTGACAAGGATTCCTAATCGAGGTCTAATTAAAAATGAAATAGATGAGGAAACCCTTAAAAATATTGCTAAAGAAACTGGGGGAGAGTATTTCAGGGCAACCAATAAAAATTCTTTAAATGAAATTTACAATCAGATTGACAGCTTAGAAAAAACTTCAGTTGAGGTTGAATACTTTTCTAGTCGAAGGGAACTCTATATATTTTTTTTAATTCCAGCATTTCTATTACTAATAGTATTTGAGATATTAAATTTAATTTATTTTAAGAGGATAGAATGACTTTTGAACACTTCTTTATTGCTTCGATATCCTTAATAATTCTTTTATCTATTTATATTATTTCGTTTTTTTATTCAAGAGAAAGAATGCTTTTTTCAAGATCTTTTTTTAATAAAAGTTTTAAAAAAATTTTAGTAAAAAACTATGATGAAAACATTCTTAGAACAAAAAAACTTTTAAAATTTCTTGCCTCAATTTTTTTGATTATTTCAATTTCGGGAATTAAGTCAGGAAAAACCATTAAACCAATCGAACGTAGAGGATCTGATGTGGTTTTTACTGTAGATATCTCGAAAAGTATGAATGCTGAGGATGTAATTCCTTCAAGACTAGAAAAGGTAAAGTTTGAAATAATTAAAACGATTGAATCTTTAACAGGCGATAGAGTTGGTATTGTTGTTTTTTCTGGAGCAAATTTTCTATATCTACCATTAACCCTTGATTATGACGCCGCTATTCTTTTTACAAAAAATATTGATTCTCAAATGATATCACTTAATGGAACATTAATTCCTCAAGCTATATCAACATCAATAAAAGCTTTAGCAACGGATGAGGACCGTGGAAAGTTAATTTTTCTTTTTTCTGATGGAGAAGACCATAATACTGATGATATCAATGTTTCAAACTATAATATACCTAAAAATATTGTTTTAAATGTAATTGGTGTTGGCACTAATGAAGGTTCTCTAATACCTGATGATAAAGAACTAAAATCGTATATAAAAAATAGTGATGGAACCTTAGTTATAAGTAAGGTTAATGACAGTTTTCTTTCTAAAATTGCTCAAATTGGCAAAGGTCAGTATCTTAGAATCAATAAGTCTGAAAATGTAAGTGAAATTATAAACTCTCTAATTATGAATTCAGAAAAGAATGCCTTAAATAATTTTGAGTTTGAGGATTATAACCAAAGGTATCAATATCCGCTTTTTATTTCATTTCTATTTTATTTAGCGTTTTATATTTTACCTAGTGGAAGAAGAAAAAGTTGGTAAAAATTTTTCAATATGCTATTTTTTTAAGTCAAATCTTTGCCCAAGATATTGGATTTAAAATGTATCAAAATAATGATTTTGATTCTGCAATAAATTATTATAAAAAACTTCTTGAGAATAAACAGTTAAATAATTTTAGAGATCATATTGAATTCAACTTAGCAACTATTTTGACACAGATTGATAGCTTAGATAGTGCAAAAAAGTATTTTGAAGAAGCAATTTTAGATTCGACTCATCCAAACTCGAATTTTTATTATAACTATGCTCATAATCTTTATAGTTCGAATGATTTAAGTAATAGTTTAGACAATTTCAAAAAAGCTGTAATTAAAGATCCTTCTAACATGCAAGCAAGGATGAACTATGAATTTGTAAAGAAACAAATAAATCAGTCAAATCCGCCTGCTCCAGGAAGCAAGATCGAAGACCCTAAAACTGATAATCAAGATAAGAATGAAGAAGAAAGGCCTTCAAATCGTCCAGATAATAATTCAAAAAATGAAAACAAGGAAGATCAGACAAATAGCTCTCAAGATGATAGTAGCAATAAACCTCAGGATACCAAAAATAATCAAAACAATGAATTTCAATCCAATCAGAATTCAGAAAACCTTCTTAATGCCTTAAAAGAAAAAGAGAAGGTTAATAAGAAAAGAAAATTGAATACTTATCCAGAAGGATCATTAAAAAGTTGGTAAAAAAAATATCAATTCTTAGTTTATTTTTCTCTCTTTTGTTGACGCAAGAAGTAAAAGTTATCTTATCGCAGAATAAAATTTCGACTAATCAATCGTTAACTTTAAGTGTTGAAATCAAGAATACTGAACAAAATCCTGAAATTGATATCTCAAAAGTGCTAAATAATTTTTCTATTGTTTCTGGACCTTCTTTGTCAAGTGAGTATAGATTTGTTAACGGCCAAAAATCTTCATCGAGGAAATTGAGCTGGATTTTGATACCATTAAGTGAAGGTTTTTTTAAATATGAATATCTTAATGTAAAACTCGGTTCAAAAATTATAACTACTGATGGATTTGAGATAGAAGTCACAAAGGATAATGACTCTCAAAAAAGCGCTGAGGAGGTCTTTCTTAAAATTGATGTGAGTTCTAAAGAGCTATTTGTTGGAGAAAAAACTACACTATCTTATACCTTTTTCACAAGAGTGCCAGTAAAAATATTGTCGACAGAATTTCCAGAATTTAAAGAGTTTTGGGTTGAAAAAATTGTTGATCCGACTGGTCAAGAAATCTCACCTGATCAATGGAAGGATATAGATCAAAATGGATTTAGTTACAAGTATCTCAAAATTTATGAGGTTGATATTTTTCCAATGAATGAAGGCATTTTTGAATTAGAACCTATGATAATTAAGGCCCAAACAAAAAATGATGATCCAAATTTTAAGAGACTTTTTTGGGAAGACCCTTTTTTTGATACTTTTTCTCAAAGAACAAGAGCAAATATTCTCGTTTCAAATCCAGTTACTGTAAAAGTTAAGAAGATTGAAGATTTGCCTAATAACTTCTCCGGTGCCGTTGGAGAATTTTCTCTAAATTCTTATTTATCATCTGAAAAATTTGAAGTGGGAGTTCCGTTTTCTTTGACAATCCAATTAAAGGGATCGGGTAATTTTTATAATATTGCTAGACCTAAAATTTCATTTACAGATAATTTTGATATTTTTGAGGGCCAGACTTCTATTGAATATGATATCAATAGAAAAAAAGAGGGTTTTATTGATTGGGAATATAATTTAATTCCTAGAAAGGAGGGAGAATATGAAATTCCTTCAATTGAGATTGATTATTTTAATACAGTTACTAAACAATGGACTAAAATTAAATTGGACAAAAAAATATTTTCAGTAAAAAAATCTTATGATGATCAAAAAATTTTAAGAACTATTAATAATCCACCAATGGTTTTAAGTCTATATCAACTTGATGCAGATTTAGAAATTAAAGATAAAGTGGTTTCCAATTTTTCAATTATCACTCTTTCTTTATCGTTCATAATGTTATTTTTTATTTACAGTGCAAATACTGTAAAAACTTTTCTTAATAAAAATATTAGATTTCTTCAAAAACGAACATCTCTTACAAGTGCGTTAATTGAGCTAAATAATTCCAAGTTTATTGAAAAGGATTTTGCAAAAATTCTTAGCAAATATTTATATAAAAAAAATATAATTAATAATAAAAATCTCGACAATAAAGAGATTTTAAATATTTTATCAAATTATTTAAAAGAGAAAGAATTATTAATGCTTATCAAGATTTTTAAGAAATTTGATCAAGCAAAGTTTGGAAACGTAAAAGAAAATGATGAAAAAGTTTTACAAGACTTAATACAAATATTTAAAGACATTGAAAAATCAACTTAAAACTAAAATTTTACTTTTTTTTGGAGTATGTACCCTTTTTGGATTTAATTCTAATTCAATAGAAAATGATATGATTCAAAAAGCCGAGAGTTATTATGTAAAAGGGGAATTTCAGAATTCTATTGTAGTTTATGAAAGAATTCTTGAAATGAACCTACATAGCCCCTCAATTTACTTTAATCTTGGAAATGCATATTTCCAGATTAACGAATTAGGTAATTCTAGATGGGCTTATGAAACAGGCTTAATATATTATCCAAGATCAAGTGAATTAAGATCCAATTTTGAAACATTAAAAAAAACAATAACAAATGATATTGCTATTGATTCGAATACTTTTAACAGAATTTTAAAAATGGTGACTTTAAACGAATTAATTAATTCCATTTGCGTTCTATTGTTTTTGTTAACAATTCTATTTATTCTTAGAAAATATAGAAAAATAAATGATATCTTTTATCCAAATTCTATTATCATATTTTCTCTATTTTTTCTGACATTTATAATTATTTTAAAGGTGATTTTGTCAAAAGAATTCCAAGGAATTGTCATAGCAAACCAACCCGAAGTTTTTATTGAATTAGAAAATAAAATTATTGATAATAATATTGTCTTATTCGATGGAAATAAGGTTTCAATTATAAATCAAAAAAAGAATTTTTATGAAATTTCTTTAATTGATGGAAGAAAAGGTTGGATTAACAAAAATCAGTTAAGAAATTTATAGTACTATGTATCAAATTTTATTTCTGTTAATCTTATTTTCAAATGTGCTAATGGCTCAAGAATCGTCTACATTGAAGATCGACGACTTCAAAGATAATCCTCCAGCTTTTCCAAAGATAATCCTTCCGGGTTATGAAGAGGATAAAGAAAACAAAAATTCTTTTTTATTAAATGAAGAATTAGAAGGTTATCGGATTCAAGTTGCCACTTCGACTTCAGAAGAAAGTTTAATTTCAATTCGAACAAATTTAGAAAAATTAACTAATGAAAAAATATATATCATATTTGAATTACCTAATTATAAAGTTCGAGTTGGCAATTATTTAAATCGAAAAGATGCGGAAGTATTGCTTAAAAAATTAAGTCGAAATGGTTATCGATATGCATGGATTGTTCCAACTAAAATTGAGAGGAATAATTAATGTCTGGGCATAGTAAGTGGTCTACAATTAAAAGAAAGAAAGGTGCTCTTGATCAAAAAAGAGGCAAGTCTTTTTCTGTATTATCAAAAGAGATAACTATTGCCTCTCGTTTAGGAGGAGGTAGTATTGATGAAAATCCAAGGCTTAGATTAGCCGTTAAAAAAGCTAAAAGCTTGAATATGCCTAACGCGAATATTGATAAGGCTATTAAAAAAGGTACTGGAGAAATAGAAGGCTTATCCATTGAAGAAGTAACTTACGAAGGTTATGGCCCATTTGGTGTCGCATTCTTAATTGAAGGTGCAACCGATAATAAAAATAGAACTGTAGCTGACATTAGACACGGTTTTAATAAGTTTGGTGGTTCATTAGGACAAAATGGTAGTGTAGCATGGAATTTTAATAGATTCGGTGTAATTCAGATTAGTTGTAGCAACTATGAAGAAGAGAAAGTTTTTGATTTATCTGTTCAATGCGATGCAAAAGATTTCTTAATTGATGATGATGTCTACCGATTAATTTTTAATCCAAATGATTTATACTCTAATGTTGAAAAAATTGAAAAAAATGGTATTGAAATTGAAAATTCATTTTTAGCATTTTTACCAAATGAATATGTATCTTTACATGTAGAAGAATTTTCTAAAGTGAACGATTTAATAGATTTTCTTGATGAATTAGAAGACGTTCAAAATGTTTTTACAAATTTAACTTTAAAGGAAGACTCTTGATTGTTGTTGGATTTGACCCAGGGCTAGCTAATACTGGATTTTCAGTTGTTGAAAAAAAATCAAATGATTTTTTTTTGATTGATGCGGGTGTAATAAATCCAAAAGTGAAAGATCCATTAGAGCTTAGAATTCATACCATTTTTAATGAATCATTAAAAATTATTAAAAAGTTTCATCCAAATTATGTAGCAATTGAAAATGTTTTTTTTGGAAAAAATGTTCAATCGGCAATTAAACTTGGTCAGGCAAAGGCTGCAATTATGCTTGCAGCAACAGATTTAGAAGTCAAATTAGTTGATTACACTCCAAGAGAAATTAAGCAATCAATTACTGGAAATGGTTCTGCTTCAAAAGACCAAGTTGAGTTTATGGTGAAAAAAATATTTAAATTAAATGACGGATTTAATAAAAAAGACATATCAGATGCTATCGCAATTGGTTGGTGTGCTTTAAACAGAATATGATCGATTCAATTACAGGAATTATAAAGTCAAAATCCCCATCAGAACTTAAAGTTTCTAATGGGGGGTTCGTACTTAAAATTAATATTTGTATTAAAGATTTTGAATTAGTTGGAGAATTGGGGTCCGAAATAACTATCTTAACATATTTAAATGTCAAAGAAGATTTATTGGAGTTATACGGATTTATTGATGAGGATAGACGAAATATTTTTTTAAAACTGATTCAAGTTTCAGGCATTGGACCAAAAACAGCTATCGGACTATTATCAAATATTACTGTTGAATCATTTAAGCAAAATATACTATCTGAGGATCATAATTCTTTAAGCTTAATTCCAGGAATAGGTCCTAAAACTGCGAAAAGAATTATCATTGAACTTAAAGAAAAAATTTCAAGTTCTTTCACAAATAAAACCTCAATTAATTCTATTCAATTTTCCTATGATGATTTATTTACTGCAATATCCTCTCTAGGTTATAAAAAAAATCAGATTGATAAAGCAGTTCAAAGATTATTTTCTGAGAGCAATTCAGAAAATATTCAAATTGAAGATGCAATTAGGCGAATTTTAACAATCATCAAATAACTAGAACCTTGAAAAAAACTATATTATATCACCAACATGAAATGCTAAACGCAAAGTTTGTTGACTTTGCAGGTTTTCAGATGCCAATTCAGTACCAGGGTATAATCTTAGAACATAATTATGTTAGAAATAGCGTTGGAATCTTTGATGTAAGTCATATGGGACAATTCAAGATTTCTGGTAGCAATGCAAAAGATTTCATTCAAAAAATTACTTCAAATGATATAAATAAATTAACCCCTGGTAAAGCTCAATATTCCTTATTAATTAACTTTGATGGAAAGATTGTTGATGATTTAATCATTTATCATCTTGATGACTATTACTTAATGGTTGTCAATGCTTCCAATATAGAAAAAAATGAATCTTGGATATTAGGCCAGATTGATCAAGGTGTTATTTTTGAAAATCTTTCTGATGAGATGGGTTTAATAGCAGTGCAAGGACCTAAGTCAAGATCTGTGCTTCAAAATTTATTCCCAGAAATTTTAAATTTAAATTTTTATGAAAATACCTTAATGAAAAATCAAGTATTTATTGCTCGGACAGGATATACCGGAGAGCTTGGTTTTGAAATTTACGCTTTTAATCACCGATTAAACGAAATTTGGGATAATCTATTATCAATTGATGGGGTTCACCCGGTTGGTTTAGGGTGTAGAGATTCTCTTAGGCTAGAAATGGGATATTGTCTTTATGGGAATGAAATTTCAGAAAACGAGAATCCATATGAAGCAGGGTTGGGGTGGGTAACAAAAACCTCAACAAATTTTATTGGTGCTAATAAACTGATCGATTGTTTACCTTCTAAGAAGTTAATTGCATTAACAATGGTTGATAGAGGAATTCCTAGAAAAGGGTATAAAATTTTCTCAGCAAGTTCAAAAGAAGAAATTGGCTATGTAACTAGTGGAGTATTTTCACCTTCACTTCAAAAAGGTATTTGTTTAGCTTATGTCGAATCTTCATTTTCAAAAGAGAAAGATTTTTTTATATCAATTAGAGATAACTATTTAAGATTAATAAGAAATTCTCTTCCTTTTTTTAAGGAAGGAACATTGTATTCATGAGAGAGAAATTTAAAATACAACTCATAGGTTGGCTACTTGCCCTTTTTTCATTTCTTATCGTAGGCGCAATTTTAACTTATGATTTTTCTGAAGATCCAAATTTATTTGCTAAAGAGATTAAAAACCCATTTGGAATTACTGGAATATATATTGGTTATTATTTAGTGAAACTTGGATTTGGCTATGGGTCATTGTTAATTCCTGCTGCATTATTCTCTTTATCAATATTTTTAATCTCAAATAAGAAAATCAGTCTTCTGGGTCTTTTACAGAGGATACAATATGAATTGATTTTTTTGTTCTTAATCTCTATTACATTAGGATTTATAGAAAATGTGTTTTTGAATAAAGATACTTTGTCTTTTCAGTTCTCAGGATATATTGGAGGAATTATTTTTTCAACAGTTTTTGATTGGCTTGGTGCTTATGGTTCATTGTCTGCTTTAATTTTCACTTGGTTTTTAATTTTACAATCTATTTTTAGGTGGGATTTTAAAAAGCTTTACCAGCAATTTTTTAAAACAATTTCATCTATTAAGATTCCTAAAGTAAGAATTCCTGAGATTAAAATTTCAACAATTAAGAATAAAAGTGATAGTGTTGTTAAAAAAAGTATAATTGATGATAGTCAATTTAAAAATGATATTTTAAAAACTGAAGTGGAGTTAACTGAATCAATAAAAAAACAGGAAGAATTTATTGAAGATCACTTTTTTAATGATGAGGATAAAATTCCAAGTCCTAATGAGGAAGATATCGAAGTAATTGAAAATAATATAAATATTGAAAAAGGTATAGTTGAATTAGAAGCAGATATTGATGAATCTAGAACTAATTCTTTTCTTTTTAAAGATTGGAAGTTCCCATCAACTGATTTATTACTTTCAGAAAATTCGAGCGAAAATGACTTAAATGATGATGAGCTCAAAGAAAGATCTGATTTTCTAAAAATCTCATTATCAAATTTTGGAGTAGAAGGTGAGACAGGTTCTATAAAAACTGGTCCAGTTATTACTTTATTTGAACTAGAACCTGCCCAGGGTGTAAGAGTTAATAAATTTGTGCAATTATCTGATGACATTGCTCGAGTTATGGAAGCAAAAAGTGTAAGAATTATAGCACCAATTCCTGGAACTAATCTTGTTGGAGTTGAAATCCCCAATAAGAATCCTCAAACAATATATTTAAAATCAGTCATAAATTCAGAAAAATATCTTAATTCTAGAGCTAAATTAAAACTTGCTATAGGAAAAGGTACATTGGGCGAGATTTCAATCCTTGATTTAACTGAAATGCCTCATTTATTAATTGCAGGAACAACTGGTTCTGGAAAGTCTGTATCATTAAATACTATTATTGTAAGCCTTCTTTATCAACTCAAACCAGATGAAGTAAAATTTGTTATTATTGATCCTAAGAAAGTTGAAATGTCATTATACAAAGGGCTTGAAAAACATTATTTATTAAAGTTTGATGGAATTGATGAGTCAATCATTACAAAAAAAGATAATGCTATTTTAGCCTTGAGGTCCCTAGAAAAGCAAATGGATACGCGATATGATATCCTTGCTGAGGCAGGCAAAAGAAATATTGACGAATATAATCAGGAAATGAAAAAGGCTAAGAAAGAAATAATGCCATATATCATTCTAATGATTGACGAGCTTGCAGATTTAATGATGTATAGTCCAAGAGATGTAGAGACACCTATCGCCCGTTTAGCCCAATTGGCTAGGGCAGTTGGAATCCATTTAATCGTTGCGACGCAGAGACCTTCAGTTGATGTTATAACAGGAGTCATCAAAGCCAATTTTCCAGCTAGAATTGCATTTCAGGTTGCGACAAGAATTGATTCAAGAACAATTCTAGATGAAATTGGTGCTGATAAATTGATTGGAAAAGGTGACATGTTGTATCAAAAACCTGGATCTTCTTCACCTATTAGAATGCACGGAGCATTTGTGACACTTAAAGAAATTGAAGATTTGGTAAGCCATATAGCTAATCAACCTGAACCAAATGAATTAATAATTGAAACAGTAAAATCTGATACAAATTCTTCTTCTAATCTAGGCGATAGCATTGAGGATGAATTATTAACTCAAGCAATTGAATTAGTTGTTACAAATAATCAGGGTTCGATTTCCTTACTTCAGAGAAGACTATCTATTGGATATTCTAGGGCAGCAAGACTAATTGATGAGATGGAAAGACTTAAAATTGTCGGTCCTTTTACGGGAAGTAAAGCTAGAGAGGTTTTAGTTGATGAATCCTATCTTGAGATGATTGATGAATAATTTCTTTTCAAGCTTAGTATTTTTTATATCTTTAATCAATGCTCAAACTGCTGAAAAAAATATTGAAAATTTTATCACTGGCTTAAATAATCATCAGTTGGAAATTGAAGTAATAAATGAAGATTCAAAAAACTATATTGCTATTTTGTCGATTTATAATGATGATTTATATTTTGATACAACAAGTTTTGATTCTTTAATAACAGTCATTCAAGGAAATCAGATTTCAACTTTTGATTTTTCTAAAAATAAAGTGATTAAAGAAAATTTTGAAATTTCCCTTCTCGATTTTTTTCAAACAAAAAACTTATCTAAGCTTCAGTTGATTTCTAGTGTTACTAATGGAAGTCAAGTGAACTATAAGTTTATTTATCAAGATCAGAATATTAATGTAGTTTTTGATAAAGAATCACAATTGATTTCTTATCTAGAAGTTTTTCAAGATGAAATAAATATTTTTAAATCAAACATTTTAAGAAAAGCAGGTTTTGATTTAGATAGTCTTTATTGGACTCAAGATACAAAATGGGAAATTATCGATTGGACAGAATAATTAAATTTGATGCTATATTTTTTGATCGAGACGGTACAATTAATGAAGATATTTTTGGTTATATTAATTCTTTAGAAGAGTTTAAATATTTTTCATTCAGTTTAGAGGCATTAAAAAACTTTTCATCTTTAACTGACAATTTTTTTATTGTTACCAATCAATCTGGATTAGAAACTGGAGTTGTTAAGCTTGAGAATTTAGAATTAATTAATCAAAAAATTTTTTCTGATTTTAAAAAAATGAAACTTCCCCTCAAGAAGATTTATTATGCTAATAGTTATAAAGAGGGATTTGATGAAATGAGAAAACCTGGTATTGGAATGTTTAATATTGCAAAAAGTGAATTTGACATTAATCTTGAAAATTCACTTATGATCGGTGATACTTATTCGGATATGCTTGCTGGAAAAAGAGTTGGCATGAAAACAATTTTTTTAAGAACTGGTTTTGGAGAAAGATATTTAGCACAGGTAAAAGCTGAAAATATTGCTGATTTAATTTGCGATAATTTACTTACGGCGTCCTTGGAGGTAATATTAAAATAGCCATTATATCTGGAGGAAATTCGGCTGAAAAGGATGTCTCATTAAAATCAGGTGAAGCTGTAGCTAAAGCTTGCTTTGGATTATCTTTAAATTTTGAACATTTCATTTTACAAGAAGAGAAAATCGATTCGACAATAGATTCTTTAAAAAAATTTGATTTTGTTTTTATTGCTTTACATGGAACCTTTGGAGAGGATGGAACTATTCAAAGAATTTTGGAAGAGAATCAAATACCGTTTAACGGTTCTAATTCCGAAGCATCTAAATTATGTTTTAATAAGGCAGCAGTAAAGATTTTGGCAAAAAAAAATAATATTTTGACCCCTGAATTCGTACAGATTAAAGAAATCAACGGTGTGCTAGAAAGTAATAATTTTTCTGTTTTTAAAGATTATGTAGTCAAACCTAATCAACAGGGCAGTTCTTTAGGGATTTATCGAAAGAAAGATTTAATCAATGAGTGTGAGAAAAAAATAAAGTCTATTTTTGAACTAGATAATGAAATTTTAATTGAAGAATTTATTGATGGAAGAGAAATAACAGTTGGCATTCTTAACAATAAAACCTTACCCATTATTGAAATAAAACCTAGAAGCGAATTTTATGATTTTCGTTCGAAGTATTCGAAAGGATTTTGTGAATATGTTTGTCCTGCAGAAATAGATTCAACAACAGAACAGAAACTGATTGAAAATAGCTTAAGAATTCACCAATTGACTGGGTGTAATGTTTACTCGAGAGTAGACTTTAGGCTTGACAAGAAAGGTACTCCATGGTTTTTAGAAATTAATACTTTACCAGGCTTAACAGAAACGAGCCTTTTTCCTTTAGCCTGTAAAAAGTCAGGAATAAATTTTGAAAAAATGATATCAAATCTGATTAATTTGTCAAATGAAAAATAATTTAAAATTTCATAACTCTATTTCTGGTAAAAAAGAAACTTTTAAACCAATTGATAATTCTCAAGTTTTGCTTTATGGTTGCGGTCCTACTGTTTATGATTCACCTCATTTAGGAAATTTTAGGACCTTTGTATTTTACGATTTAACAATTAGGGTATTAGAGCTAAATGATTTTTCTGTAAAATCAATTATTAATATTACAGATATTGATGATAAGATTATCAGCAGGGCTAATAGCGAAAAAATTGCTATAAATGAAATTACAGACAAGTATGAATCAGTTTTTATTGAACAGTGGAATAAATTAAAAAATCAGCCTCCAACTCAATTTATTAGAGCAACAGATAATATCACTAAGATGATTTCTTTTATAGGTCATCTTTTAGATGAAAATTTTGCTTATGTTGTTAACAGAAGCGTCTATTTTGATTCAAGAAATCCTAAAATTAATTATGAAAAATTTGTGAGCGTTGAAGAGGTTAATGAAGAGCAAAATTCGGAGAAAAAATATCAGAGCGACTTTGCATTGTGGAAAGCTTGGAAAAAAGAGGACAAAGAAATCTTTTGGGATTCTCCATGGGGTCAAGGAAGACCTGCTTGGCATACAGAATGTGCAGTTATAGCTTCAAATTATCTTGGAAATTCAATTGATATACATTGTGGAGGAATTGATTTAAAGTTTCCTCATCATCAGAATGAGTCAGTTCAAGTTGAAGCTTTATCGGAGGATATATTCACCAAATATTGGCTTCACTCAGAGCATCTGCTATTTGAGGATGATAAGATGAGTAAATCCCTAGGGAATATTCTCAGTATTCAATCGCTGGAAAAAGAATTTTCGATAGAATCAATTAGACTTTTTTTGATGTCTTCTCATTATCGATCTAAAATTTCTTTTAATAGAAATTTATTAATTGAATCACAGAAAATGATTTCAAAAATTGAAAGATTTATAGATAATTTTAATCTAAGATTATCTTCACCAAGTTTCAAAAATTACGATTTTACAAATCAAGAAATTGATTTTATCAATGCCTTGAATGATGATTTGAATACTCCTAAGGCTCTCGGTGTTTTTTTTAATTTTCTTAATGAATTCAATAAGAAAAACATTTCCAGTTCTAACAATCTACATAATTCAGAAAGATATAAAGCAGAATCCTTCGTTAATTTATTTAATTCAATATTTCAATGTTTATCTGATAGCAGTTCAAATCCTTTTCCTGAGAATGTACAAAAATTACTAGAAAGCAGAGAGTTAGCTAGAAATGAAAAAAATTGGGAATTATCCGATCAAATAAGAGAAAAATTGTCAGAACTCGGTTGGAATGTTGAAGATTCTTCTCAAGGTCAAAAACTAATCAGAAAGAAATAATTTGTTTTCCTAATAATATTTATTATATTTCACCGCTTTTGTCTACGCGTGCGTATAGAGATTAAAATATATGAATCGCCGGTGTAGCTCAGTTGGTAGAGCAGCTGATTTGTAATCAGCGGGTCGGGGGTTCGAATCCTCTCGCCGGCTCACTAAAGCAAAAATAGATATTTGAAATTTTTTTTCCTACTATCAGGATTTGAAAAATGGGAATAGGGGAAATGGCCGAGTGGTTAATGGCAGCAGACTGTAAATCTGCCGACGAGAGTCTACGGAGGTTCGAATCCTTCTTTCCCCACAGGCTTGCGAGTGTAGCTCAGTTGGTAGAGCATCAGCCTTCCAAGCTGAGGGTCGCGCGTTCGAATCGCGTCACTCGCTCAAAAGATTGCCTACGTAGCTCAGTAGGTAGAGCACTTCGTTGGTAACGAAGAGGTCACCGGTTCGATCCCGGTCGTAGGCTCAAAAAAAATTGTTTATAAACAAGGAGATAAAATAAAATGGCTAAAGAAACATTTGTTAGAAATAAGCCTCACTGCAATATTGGTACTATTGGTCACGTTGACCACGGTAAAACCACTTTGACTGCTGCTATCACTCAAACACAGTCCTTGCTTGGTTTGGCTGCTAAGCGTGATTTTGATACTATCGATAATGCTCCTGAGGAAAGAGAAAGAGGTATCACTATTCAGACTGCTCATGTTGAATATGAGACTGATAATAGACACTATGCTCACGTTGACTGTCCTGGTCACGCTGACTATATTAAAAACATGATCACTGGTGCTGCTCAAATGGATGGAGCAATCCTTGTAGTAAGTGCTGCTGATGGTCCTATGCCTCAAACTCGTGAACACGTATTGCTTGCTCGTCAGGTAAATGTTCCAAGTTTAGTAGTTTTTATGAACAAAGTAGATCAAGTTGATGATCCCGAGTTATTAGAACTAGTTGAACTTGAATTAAGAGATCTTTTAAATGAATACGAATTCGATGGTGATAACACTCCAATTGTTAAAGGAAGTGCTTTAAAAGCTCTTGAAAATCCTGGTGATGCAGATGCTACTGCTTGTATCGCTGAGTTGATGAAGGCATGTGATGAATTCATTCCACAACCAAAACGCGACATTGATAAGCCATTTTTGATGCCGATTGAAGATGTGTTTAGTATTACTGGACGTGGTACTGTTGGTACTGGACGTATTGAGTCAGGAAAAGTTAAAGTTGGTGACGAAATTGAATTAGTAGGTCTTGGAAGTAACTTAACTACAGTGATTACTGGAGTTGAAATGTTCCAAAAAACTCTTACTGAGGGTGAAGCTGGCGATAATGCTGGTCTTTTGATGAGAGGTATTGAAAAGACTGATTTAAAAAGAGGAATGGTAGCTGCCAAAAAAGGATCTATTAAACCTCATACCAAGTTCTCAGCAAATGTTTATGTTCTCAAAAAAGAAGAGGGTGGTAGACATACTCCTTTCTTCAACAATTATAGGCCACAATTCTACTTCAGAACTACTGATGTGACAGGTGTTGTTACTCTTCCTTCAGGAACTGAAATGGTAATGCCTGGTGATAATATAGAGATTAATGTTGAGTTAATTACACCGATAGCTATGAATGAAGAGCTAAGATTCGCTATTAGAGAAGGTGGCCACACTGTTGGTGCTGGAGTTGTTACTAAAATAGTTGAATAATGGCAGGTAATAGTAAAAGAGCAATTGTTAGGCTTGAAAGTACAGCCGGAACAGGTTTTCGTTACACTGTAACAAAAAACAAGACGAAACATCCTGAAAAACTTGAATATAAAAAGTTTGATCCGGTTGCTAGAAAGCATGTTCTTTTTAAAGAAATAAAATAAATAGCAAATAGGTGAGTAGCTCAATTGGTAGAGCATCGGTCTCCAAAACCGGGGGTTGCGGGTTCAATTCCTGCCTCACCTGCATAAGGAAAAAAAATGTTTAGTAGAATAAAAGATTTTTTTAGTCAGGTTTACATCGAAATGAATAAAGTCGTTTGGCCTTCTTATCAAGAGCTAAGAGGATCTACTTATCTTATTATTGTCTTTTTTATCTTATTTGCTGTTTTTTTATTTGGAATAGATTGGGTTATCCAAAAAGTGATTAGGTTGTTTGTATGAATTGGTATAGTTTAAGAGTCATCTCAGGAAAAGAAGAAAAGATTAAGGAAAGTATCTTTAGAGAATTGTCTTTAGACAACTCAATATCTACAGATATTGAAGATATTCTTGTTCCTATGGAGAATGTTGTTGAAATCAAGAATGGCAAAAAACAAATCAAGAAAAAAGTTTACTTTCCTGGATATATTATGATGAAGATGAATATGAATCAGCAATCCAAATTCTTCATTGAAAATATTAATGGAGTAATGAGTTTTGTTGGCCCTAAAGGAAATCCAACTTCATTATCTGATGATGAAGTGCGAAGAATGACTGGAGTTAATGATGTTGATGAAGAGTCTCTATTATTAGCGGATAATATTCCATTTAAAGTAGGGGATGCAGTAAGAGTCATTGATGGTCCATTTAAAGATTTTGATGGTTTAGTCCAAGAAATCAGCGATAGAAGTACAATCAAAGTTAATGTTAATATTTTTGGCAGACCTACTCCAATAGAATTAAGTGTAAATCAAATTACAAGTGAGAATTAAAATGGCTGAAAAAAAAGAGATAACAGGTTTAATTAAGTTGCAGATACCGGCTGGTAAAGCCAATCCAGCTCCTCCTGTTGGTCCAGCTTTGGGTCAACATGGTGTTAATATAATGGACTTTTGCAATGCTTTTAACGAAAAAACTAAAGAGCTTCAAGGAACCCTAACCCCTGTTGTTATAACTGTTTATAAAGATAGATCTTTTACTTTCATAACAAAATCTCCACCTGCATCTACTTTAATTATGAAGGAACTCAATCTTAGTAAAGGTTCTCAAGAGCCAAACAAAGACAAAATAAGCACAATCTCTTTTCAGCAATGTAAAAAAATTGCAGAAATTAAATTTAAAGACTTAAATTGCCACACTTTAGAACAAGCTTCTGAAATGATTGCAGGTACTGCAGTAAGTATGGGTATTGAGGTATTAAGATGAGTAAATATTTTAAATCAATTGAAGATAAATTTGATAGGAATTTTAATTATAACGTTTCTGATGCTATTAATCTTTTATTATCATTAAAAAGATCTTCTTATGCAGAATCTGTTGATGTGGCCTTTAATCTTGGAGTAAACCCTAGACATGCCGAAGAGAATATTCGTCTTAGTATTAATCTACCTAACGGTGTTGGTAAAGAGGTTTCTGTCCTTGCTATTGTGAATGCTGATAAAGAAAAAGAAGCAAAAGATGCCGGTGCTGATTTAGTTGGTAAGGAAGAATTCTTAGAAAAAATTAAGAATGGTTGGGCTGATGTTGATCGAATTGTTTGCACCCCTGACCTAATGGTTGAATTAGGTAAGCTTGGAAAAATTTTAGGTCCTAAGGGTTTAATGCCTAATCCAAAGTCTGGTACAGTAACTACTGATATTGCTAATTCAATAAAAGAACTTAAAGCTGGAAAAATTGATGCAAGGGTTGAAAAGAATGGAATTTTACATTCTTCAATAGGTAAAACCTCATTTTCTGAAATTCAATTAAAAGAGAATTTTGATACTTTTAAGCAAGCAGTTTTATCAGCAAAACCAAATTCCTTTAAGGGAAAATATTTAAAGTCTATTAGTATTTCATCTACTCATGGACCTGGAATTAAAGTGGAGATTGACTAATATGCCAAGTATTAAAAATATCGAATCGGTAAAAACTGTTACTGAAAAATTTAAGAAAGCAAGCGCCATGTACTTTGCTGATTACAAAGGATTGGATGTTTCAGCTATAACTCAATTACGTAAAGATTGTTATGCAAATAATGTTGATTTTACTGTAGCAAAAAACACAATTATAAAAATTGCTGCAAAAGAAGTAGGAATTGAAGGTCTTGATGAAATGTTAAGTGGTCAAACTGCTGTTGCTTTGAGTTATGATGATCCTACCAATCCAGCAAAAGTAATAAAGAATTTTAAAAAAGATTTTGAAAAACCTGAAATAAAAGGACTTATAATCAATGGAGAGATTTTTGGACCCGACCAATTTAATCGTATAGCTAGCCTTCCATCTAAGGAACAATTGCTTTCACAATTAATTGGTATGTTGCAATCTCCAATGAGCAAACTAAGTGCAACATTAGCAAGTCCTCTATCAGGATTTTTAGGAACACTTGAACAAATGAAATCAAAGAAAGGTAGTTAATAAAATGAGCGTTAAAAGAGAAGATGTATTAAAGTATCTTGAAGAAGCTAATATGATAGAAATATCTGAGTTAGTTAAAGATATTGAAGAGAAATTTGGTGTTACAGCTGCTGTTCCAGTTGCTGCCGCTGCCGCTGCCCCTGCTGGCGATGCTGGTGCTGCAGATGCTGGTGAAAAAAGTAGCTTTAATGTAGTCTTAGCTGCGGCTGGACAATCAAAGATAGGCGTTATTAAGATTGTTAGAGAAATAACTAGTTTAGGATTGAAAGAAGCTAAAGAATTGGTTGATTCTGCTCCAAAAGCCATTAAGGAAGGCGTTTCTAAAGATGAGGCTGAAGCGTTGAAGTCTCAGTTAGAAGAAGCTGGAGCAACTGTTGAATTACAGTAATAAAGTAATTTAAATCAATCAATTTGGAGGCATTCAATCTTGAAAAATAAGATTAATAAAAGACATAACTTTGAGAAAATAAAATCTATTGAAGATTTACCAAATCTGCTCGATTTGCAGATTGAATCTTTCAAAGATTTTTTACAAGAAGATACTACTCCTGCTAAACGTGATATGTTTGGATTGCATGAAGCTTTCTCAACCATATTTCCTTTACAGGATACTCATGAAAATTATACGCTTGAGTACAACAATTATCATATTGGGAAACCTCGTTACACTCCTAGAGAATGTGCAGACAGAGGTATTACTTATAGTGTATCTATTGATGTCGATTTAACGCTCAAAATCACAGATGAGAAAGATAAAAAGAAATTTTCTCAAATTATTCCACAAACAGTCTATTTTGGAAATATTCCATATATGACTGATAAAGGTACTTTTATTATTAATGGAGCTGAAAGAACTGTTGTAACCCAGCTTCAAAGGTCCCCAGGTGCATTCTTTGATCATAAACTTCATCCTAATGGTGCTAAATTATATAATGCAAGAATAATTCCAATAAGAGGTTCTTGGATTGATTTTACTACTGATATCAATGATGTCCTTTTTACCATTGTTGATAGAAAAAGAAAGTTCCCTTCAACCATATTGTTGAGAGCTCTAGGGTATAGTTCTGATAAAAATTTATTCGACGCATTTGGTTTAACATTAGAAATCAATCCTGTGAAAATTGATGAATCAGAATTAACTAATTATGTCATTATTGAAGATATTATTGACACGAATAGTGGAGAATTATTTGCTGAATCTGGCACTCCATTAAATGAATCTATAATTAAGTTATTCAAAAAAAATAAAGTTAAAACCATTTCTGTAGTTGATATCAAAAACAGTATAGATAGTATGATGTTATATAATACTATTTTGAAGGATCCAACAAAAAATACTGAAGATGCTTTATTGAGGTTGTATGTTTTACTTCGAGGTACCGATGCACCAAGTATTGAAGCGGCAGAAAAATTTATTAATCGTCTATTCTTTTTTCCGAAGAAATACGATTTAGGAGCAGTTGGTAGATACAGATTAGATAAACAATTTAATTTGGATAACTCTGGAAATGAAAATGTTTTAACGCTTGATGACTTTTTAACCACCATCAAATATTTAATATTAATGAGAAAAGGCTTGAAAGCTCCAGATGATATTGATCATTTAGGTAATAGAAGAGTAAGAACTGTTGGGGAGCAACTTAAAGTTCAATTTAATTCTGCATTAGCAAGAATGGTGAGAACCGTTTATGAAAGAATGAATTTAAGAGAGTCTGAGACAATCACTCCACAAGATCTTATAAATTCGAGATTAGTTACAACTGTTATTAATACTTTCTTCGGAACTAGTCAGCTTTCTCAATTTGGAGATCAAACTAATCCGTTGGCTGAAATTACTCACAAAAGAAGAATTTCTTCACTGGGTCCTGGAGGTCTTTCTAGAGAAAGAGCTGGTTTTGAGGTTCGAGATGTTCACTACACTCATTATGGAAGATTATGTCCAATTGAAACTCCAGAAGGTCCTAATATTGGGTTGATTTCATCATTAGCAATGATGGCTAGAGTTAACAAACATGGTTTTATTGAAGCGCCATATAGATTAGTAGAAAAGTCCACTCTTTCTAATAAGGTTTCTTATTTATCTGCTGATGATGAAGATAGATCTCTGATTGCACAATCTGGCTTGTCTTTAAATAAGTCAAACAAGATAGTTGATGAAAGAATTCGTGTTAGAAATAAGGGTGATTTTCCAATAGTTTCTAGCGATGAAGTTAATTATGCAGATTTAGTACCTAATCAAATTTTAAGTGTAGCTGCTGCCCTAATTCCATTTGTTGAGCACGATGATGCTAATAGAGCTTTAATGGGTTCCAATATGCAACGTCAATCGGTTCCTTTAATGAAAACAGACTCTCCCATTGTTGGTACAGGTATGGAAGGTAAGGTAGCTGTAGATTCTAAAGCTGTGGTCTTGTCTCCTGTATCAGGAGAAGTAGTTCATGTCGATTCAAAGAAAATTGTAATCAAGGATAATTCTTCCGATGGAGTTCATCTTGCTGAAGATGAGGATTTGGTAACAGTCAATTTAATCAAATATGCACGATCAAATCAGAATACATGCTATAATCAGAAATCCATTGTTTCAGAAGGTGATAAAGTCAAAATAGGTGATGTTATTGCTGATGGTGCTTCAACCGATAACGGAGAATTAGCCTTAGGAAAGAATGTCCTTGTTGCTCTTATGCCTTGGAATGGTTATAACTTTGAAGATGCTATTGTGATTAATGAACGATTAGTTCGTGATGATGTTTTTACTTCATTGCATATCAATGAAGTAGAGTTAGAGGTTAGAGATACAAAAAGAGGAGAAGAGGAGCTTACTCCTGAAATTCCAAACGTTAGCGAAGAATCAACTGCTCAACTAGATGAAAACGGCTTAATTAGAGTTGGAGCTTTAGTTAAAGAGGATGATATTCTTATAGGAAAAGTAAGTCCTAAGGGTGAAACAGATCCATCTCCAGAAGAAAAACTATTAAGGGCTATTTTTGGTGAAAAAGCAGGAGATGTTAAGGATTCATCTAAAAAAGCTGAACCGGGTGTTCAAGGTGTTGTTATTAAAACTGACCTGTATGAAAAAGCTTCTAAATCATCAAAGGTTAAGACAAATGAACAAATCAAATTACTTCAAAAATCAAAGATTGACGCTGAAAAAAATCTACGTGCCAAAAGAGATAAGATCATTCTTTCTTTGCTAAAAGATAAATCTTCATTAGGTATCAAAGACTTATCAGGTAAAGTAATTATTAAGAAAAACACTATTCTATCAGAAAAGAAACTTTCCTCAACTAATTTTGAATTATTATCTGTTGAAGAACCTTGGGTTTCAGCTCCTAAAACATGGGATAAGGTTCTTTCAGCCTTAAATTCCTTTGAAAAAAATCTGTCAAAAATTGAAGATAAATTAGAAACTGAAATCTTCAAACTCAAAGAAGGTGATCAGTTACAGCCAGGAATTTTAAAGCTTGCAAAGGTTTATGTTGCAAATAAGAGAAAAATTTCTGTAGGGGACAAAATGGCTGGAAGACATGGTAATAAAGGTGTTATTGCAACTATAGTTCCTGAAGAAAATATGCCATTTATGGAAGATGGAACTCCAATAGATATCTGCTTAAATCCGCTAGGTGTTCCTTCCCGTATGAATCTAGGTCAATTATATGAAACAATGTTAGGTCTTGCTGGTAAAATTCTTGATGAAAAATATGCTACCCCAGTTTTTAATGGTGCTTCCCCAGAAGAGGTAGCTAAGAAAATGGAAGAAGCAGGTCTTTCAAATACCGGTAAAGCTACTCTGTACGATGGACTTTCTGGAGAGAAAATTGATAATCCAGTACTTGTTGGTTATATGTACATGATGAAGCTTTATCATATGGTTGATGACAAAATGCATGCACGTTCAACCGGACCTTATTCTCTAGTTACCCAACAACCTCTAGGAGGTAAAGCTCAATTTGGTGGTCAAAGATTCGGTGAAATGGAAGTTTGGGCATTGCAAGCTTATGGAGCTGCACACATCTTAAGAGAAATTTTAACAATTAAGTCTGATGACATTGAGGGAAGATCTCGTATTTATAGCGCCTTAGTTAAAGGTGAAGATTTGCCAGATCCTTCTATACCTGAAGCATTCAACGTTTTCATGAAAGAGATTCAAGGGTTAGCTCTTGATATAACTTTAGATTAAAGGAATATGATTAATGTATAATAAAAGAAACACTATAACTTTAAAACTCGCTTCCCCTGAAAAAATTTTAGAGGGATCATTTGGTGAAGTTTTAAAACCTGAAACAATTAATTATCGTTCATACAAACCTGAAAAAGATGGATTATTTTGTGAAAAGATTTTTGGACCTGTAAAGGACTTTGAGTGTCATTGTGGCAAGTATAAAGGTATTCGTTACAGAGGAATCATTTGTGATAGATGTGGTGTTGAAGTAACTACTAAGAAAGTTAGAAGAAACAGAATGGGTCATATTACTCTTGCTGTTCCCGTAGTCCATATTTGGTTTTTAAAATCTATTCCAAGTAAATTGAGTTATATTCTTGGAAAAAGTGCCAAACAGCTTGAAAGTGTTATTTATTATGAGAATTATCTTATTATTAACCCCGGAAAAAGTGGCTATAAAAGATTTGAACTAGTTGATGAGCAAGCTTATGAAGATTTAGAAAAAGAATTTGGTTATGAGGCTGTTTCACCTGAGGAAAGAGAAGATGAATCTTACTTCTATGCAGCAATGGGTGGAGAAGCTATAAAAGATGCTTTATCTGAAATTGATTTGCTTGAGTTAAAACGTGATCTCGAAGTTATCGCAGCAACTTCCACTTCAATGCAGAAAAAGGAAGATGCATTAAAACGATTAAAAGTTGTTAAAGATTTTGCGAACGAAAGAAATAACAAACCGGAATGGATGATTATTTCTATTTTACCTGTTATGCCACCTGAGCTTAGACCTTTAGTTCCTCTCGAAGGAGGAAGGTTTGCAGCTAGTGACCTCAACGATCTTTACCGAAGAATTATTATTAGAAATAACAGATTGAAGCAGTTGATGGATATTCAAGCTCCAGAAGTAATTTTAAGAAATGAAAAAAGAATGCTTCAAGAAGCAGTAGATGCCCTTTTTGATAACACAAAGAGAAAGACTGCAATTAGAAGTGGTTCAAAAAGACCATTAAAATCAATCTCTGATATGTTGCGAGGTAAACAAGGAAGATTTAGACAAAATCTTCTAGGAAAAAGAGTTGACTATTCAGCTCGTTCAGTAATTGTAGTTGGTCCAGAATTGAAACTTACTGAATGTGGAATTCCAAAAAATATGGCTCTTGAATTATTCAAACCTCATCTAATAAGAGAATTGATAAGAAGAGATTTAGCTGCAACACCTAGAAGTGCTAAATTGATGATAGAAAATAAAGAAGTGTTCGTTTATGAGATTCTTGAAAGCGTCGTTAAAGAACATCCAGTGCTTCTTAATCGTGCTCCTACTCTTCATAGGTTAGGGATTATCGCATTTCAACCTATCCTCATTGATGGTAAAGCAATCAGAGTTCATCCTTTAGTTTGTTCTGCATTTAACGCAGACTTTGATGGAGACCAAATGGCCGTTCATGTCCCTTTATCTATTCCATCACAATTAGAAGCAAGAATCTTGATGATGGCTAGCCAAAATATTCTTCATCCTGCTAGCGGTAAGCCAATTACTTTGCCTTCTCAAGATATGATTTTAGGATGTTATTATTTAACTAAAGAAAAAAATGGACAATTAGGTGAAGGAAAATCTTTTGGATCAATTGAAGAAGTAATGATGGCTTATGAGAATAAAAAAGTTGGATTACATGCTAAAATCAACTTAAGAGATAATGGTATTTGGTATAAAAATACGACAGCAGGCCGTGCTATTTTTAATTCAATTGTACCAGATGAATTAGGTTATGTTGATGAAGTTATTTCTAAGAAAAAGTTAAGTTTTTTAATTGGTGACTCTTTCGTTAAGGCGGGGAATGATAGAACTGTTCAACTTTTAGATGACCTGAAAGAAATAGGGTTTAAAACTGCAACAAAGAGTGGTATATCTATTTCTATAAGTGACATTTTAATTCCATCTTTAAAAGATGAAATAATTCGAGATGCAGAAAAGCAAGTAGATCAAATTCAAGCTAGATTCAATCGCCATGTATTAACTGAAGGTGAAAGATATAATAAAGTTATCGATGTTTGGACAAAAACTACTAGTCAAGTTGCAGAAGTTTTAATGAATAATTTAAGATCCGATGACCAAGGATTTAATCCAGTTTATATGATGGCTGATTCAGGTGCTAGAGGTTCTGGCGATCAAATCAAGCAGTTAGCAGGTATGAGAGGATTAATGGCAAAACCTAAGAAATCTATGATCGGTGGTGGTGAAATTATTGAAAGTCCTATTCAATCTAATTTCAAAGAAGGTCTATCGATTATGGAGTATTTTATTTCCACTCATGGAGCTAGAAAAGGGTTAGCTGATACTGCCTTAAAAACTGCTGATGCAGGATATTTAACTAGACGATTGGTTGATGTAGCTCAAGATGTTGTTGTTTTTGAAGAGGATTGTGGAACAATTAATGGGATAACTGTTTCTGACTTAAAAGAAGGTGAAGAAGTTGTAGAATCTATCTCAGAGAGAATTTTAGGTAGAACTTCTTCAGATAAAATAGTTATTGATGGAGAGACGATTATTGATCAAGGTCAAGTCTTCAATGAGACAATCTCAAAAATCATTGAAGAGAATAATATTTCAAGAGTAAGAATTAAATCCATTTTAACATGTGAAAGCAGAAGAGGCGTTTGCGCTCAATGTTATGGTTGGGATTTAACTAGAAGAGAATTAGCTAACAAAGGTACTGCTGTAGGTATAATTGCAGCCCAGAGTATTGGTGAGCCTGGAACACAGTTAACTCTAAGAACTTTTCACATTGGTGGTACAGCATCCAGAATTATTGAGCAGTCTGATATGGAAGCAAAACATGCTGGGGTTGTGAGTTTTAGTGATAGTTTTGATTTTGCAAAAACTATCGATGAAGATGGAGATGAGGTAACCAGATGTTTGTCAAGAAATTCAAAGCTTTTTATTTTAGATAAAAATGGTAAAGTATCAGATGAATATCAGATTCCTTATGGTGCGAATTTATCTATCTCTTCTGGTGATGTTGTTAAAAAAGGTGATATTTTATTTTCATGGGATCCTTACACTGATATCATTTTAGCTCGTCAATCGGGTATAATCAAAATGAAGGATTTTATTGAAGGCGATACTTATCAAGAAGAAGCAGTTGAGGGTGGTAAAAAACAAAAAGTAGTTACAGAATCAAAAGATAGAAAATTAAGTCCTCAAATTGAAATCTATACTACTAAAGGTGATCTTATTTCTGGTGGAACCATTCTGCCAATAAAAGCTACATTAGTAGTTAATGATGGCCAAAAAGTTATGAAAGGTCAAACTTTAGTTAAAATACCAAAAGATGTTGGTAAAACTAGAGATATTACTGGTGGATTACCTAGAGTTGCAGAATTATTTGAAGCTAGAAAACCTCTCAATCCTGCAATTGTTTCAGAAATCAATGGAAAAGTTGAATTTGGTGAGATTAAAAGGGGTGTGAGAAAAATTTCTGTAATTCCAAGTAACGGTAAGGAAATAGTTTATAAAATTCCATATGGTAAGCATGTAGTTGTTCATGAAGGTGATAATATTACAGCTGGAACTCCATTATGTGAAGGTTCAATATCTCCATCTGATATTCTCAATATTCTTGGACCAAATGCTGTAAGGGAATATTTAGTAAATCAAATTCAAGAAGTCTACCGTTTACAGGGGGTTGGAATCAATGATAAACATATTGAAGTTATTGTTAATCAAATGATGAAAAAAGTTGTAATCAAAGATCCAGGAGACAGTACTTTACTTTTAAATGAAAGGTTAGATAAGCAAGATTTATTTGCTTTAAATGATTCAATGAAAGGTATGGTCATCATTGATGAATCTGGAGATTCTAATCTTGATATAGGCACTATGATTTCTGAGATTGAAGTGAAAGAATTAAATAAGGAGTTAAAGTCTGCTGAAAAAGAAATTGTAAAATTTCATAAAGCAAAGCAAGCAACATTTGAACCAATACTTATGGGAATTACTCAGGCGTCATTGAATACAAATAGTTTTATCTCTGCTGCATCTTTTCAGGAAACTACTAGAGTTTTAACTGACGCAGCTACAGCAAGTAAAACTGACTATTTATTAGGCTTGAAAGAAAATGTTGCTTTAGGTAGATTAATTCCCGCTGGAACTGGATTTCCAGAGTTAGAAAATATTAGAATTTCAAGTTCTGATAAAACAGAATCTTGAATTTTAGATAGTTGAACTTCATTTCATTTTTTTAATGAGTTCATAAATATGAAAAGCAACTATCGGTATGAAGAAGAAAACATTTGTTTCTTCCGCGATATAACAATATATTCGCCGGTGTTTATAGAGAATGGAGTATAATAAATTATGCCAACAGTAAATCAGTTGATTCGTAAGAGTCGTAATACAATTGGGAAAAAATCCAAAAGTGTTGCCCTCAATAGTAGTCCTCAAAAAAGAGGTGTGTGTACAAGGGTTTATACCACTACGCCTAAGAAACCAAATTCTGCTTTAAGAAAAGTTGCTAGAGTTAGGTTGACTAATGGTATGGAGGTTACTGCATATATTCCTGGAGAGGGGCACAATCTACAGGAACACTCTATTGTTTTAATTGAAGGTGGAAGAGTAAAAGATTTACCTGGAGTACGATACCATATAGTTAGAGGATCTCTTGATACCGCTGGAGTCAAAGATAGACAAACTAGCCGCTCAAGATATGGAGCTAAGAAACCAAAATAAGCTATGAGAAGAAGAAGACCAGAAAAAAGAACCATTAATCCTGATCCTAAGTTTAACGACTTACAAGTATCTAAGTTTATGAACTATTTATTGACGGACGGCAAAAAAGGTATTGCTGAAAAAATTTTGTATAGTGCTTTTGATATTATTTCTGACAAAAGCAAAAAAGACCCAGTTGAAGTTTTTAAAAAAGCCTTGAGTAATGCTTCTCCTCATGTTGAAGTTAAGTCTAAGAGAATTGGTGGAGCAACATATCAAGTTCCAATTGAAGTCCCATCTAGAAGACAGTTTTATTTAGCTTCCCATTGGATTATTGGCAGTGCTCAGAATAAATCTGGAAGTTCAATGTCTGTTAGATTAGCTAGTGAAATTTTAAGTGCCTCAAATAATGAGGGTAATGCTATTAAGAAAAAAGAAGACACTCATCGTATGGCTGAAGCTAATAAAGCTTTTGCTCATTTTGGTAGGGGAAGATAATGTCAGCTGATTTAGTTAATGTAAGAAATATTGGTATTATGGCTCATGTTGATGCTGGAAAGACTACATTAACAGAAAGAATGCTTTTTTACTCCGGTAAATCCCATAAAATTGGAGAAGTTCATGATGGAGCTGCAACAATGGATTGGATGGCTCAAGAACAAGAAAGAGGTATTACAATTACCTCAGCAGCCACGACGTTTTACTGGAATAAAAAAAGAGTTAATCTGATTGATACTCCTGGTCACGTAGATTTTACTATGGAAGTTGAAAGATCTCTTAGAGTACTAGATGGAGCTGTAGCCGTTTTTTGTGCTGTTGCTGGCGTAGAACCTCAAAGTGAAACTGTTTGGAGACAGGCTACAAAATATAATGTTCCTCGAATAGCATTTATAAACAAAATGGATCGTGTAGGTGCAGATTTTTATAATGCAATTGATACGATGAAGAAAAGATTAAATACCAAACCTCTTCCAATTGCCCTACCTATTGGTTCTGGTGAGACTTTTTCTGGTATTATTGACTTATTAACAATGAAAGCTATTAGATATATTGATTCATCGCAAGGTGCAGAATTTGAATCCATAGAGATTCCAAGTGATTTACAATCCGATGCCGATAAATGGAGAAACTTTCTATTAGAAGAAGTTGCTTCTTTTGATGATGCGCTGATGGAAAAATATTTAGGAGAAGAAGAAATTACTGAAGATGAAATTAAGTCTGCTTTGAAGAAAGGTTGTTTAGACAATGCCTTTATTCCTACCCTTTGTGGTTCTGCTTTTAAGAATAAAGGCGTACAAAGAGTACTAGATGCTGTATGTGACTTTCTTCCCTCTCCAGTAGACATTGAATCAATTGAAGGTTCTTCAGTGAATGACCCAGATCAGAAAGTTAAGATTAAAAATTCTACTGATGGTGATTTTAGTGCATTAGCTTTTAAAATAGCAACAGATCCTTTTGTAGGAAAATTAACATATATCAGAGTTTATTCTGGTATATTGAAAAAAGGTTCTTTTTGTATTGATGCTAATACTGGAGAAAAACAACGCGTTTCAAGAATTCTCCAAATGCATGCAAATAAAAGAGAAGAATTAGAAGAGGCAAAAGCAGGTGAAATTGTTGCTGTTATTGGCCTAAAAGATGTCATGACTGGACATACTTTATCTGAAAAAGGAGACATTATTTTAGAGTCTATGGAATTTCCAGACCCAGTTGTTTCTGTATCAATTGAACCTGTATCTAAGGGTGACCAAGATCAGCTAGCGAAAGGTATGAGTAAATTAAGTGAAGAAGATCCTACCTTTAAAGTCAATGTTGATACTGAAACAGGTCAGACAGTTATTTCTGGAATGGGAGAGGTTCACTTAGAGATTATTATTGATAGATTAAAACGAGAATTTAATGTCAATGCCAATGTGGGTAAACCTCAGGTTTCATTCAGAGAAGCTATTCAAAAACCTGTTGATAATATTGATGAGAAATTTGTTCGACAGTCTGGTGGTAGAGGTCAGTATGGTCATGTTGTGATTAATGTTAAACCTGCCGCTCAAGGAGAAGGTTATAAGTTTGTTAATAAGATTGTAGGAGGAGTCATTCCTCGAGAATATATTCCTGCTGTTGATGCTGGTATTCAAGAGCAGTTAAAAAATGGTGTCTTATATGGATACCCCATACCTGATATCGAAGTTGAGCTAGTTTTTGGTTCTTATCATGATGTTGATTCATCTGAAATTGCTTTTAAAGTAGCTGGATCTAGAGCTATTTCAAGAGCTTGTAAAGCTGCCAATCCTGTACTAATGGAGCCTATTATGAGAGTAGAAGCTACCACTCCTGATGATTATTTAGGAGATGTTATTGGTGATATTAATTCACGCAGAGGTAAAGTTGAATCAATGGAACAGCAAGGTTCTAATCAGGTTGTTAAAGCAGCTGTTCCTTTAAGCGAAATGTTTGGGTATGCTACTGATTTAAGATCTATTTCTCAAGGTAGAGCAAATTTTTATATGGACTTCCTTGAATATTCAAAAGTCCCATCATCTGTTGAAGATAAGTTAATGAAATCTAAGTTAAATAATGAGGAGTCAAATTAATGAGCCAAGACTTAATACGTATTTCTTTAAAAGCCTTCGATCACAAGCTTCTTGATAAGTCTGCAGAAAAAATTATTCGCACTGCTAAATCTACTGGTGCTATTATTTCTGGGCCAATACCTTTACCAACAAAGAAAACGGTCTATACTGTTCTTAGATCTCCATTTATTGACAAAAAATCTAGAGAACAATTTCAAACTAAAATTCATAAAAGAGTAGTTGACATTGTTAATTCTACTCCAAAAACTGTTGAATCATTAATGAAGCTTGATCTTCCGTCAGGTGTTGATATTGAGATTAGAGGATAAATAATGTACGGTTTAATAGGTAAAAAAATAAAAATGACTCAAATGTTTAATAATAATGGACATTTGGTTCCAGTTACCTTAGTGAGTGCTGGACCTTGTACCGTCTCTCAAATTAAAACTTCAGATAATGATGGGTATAATGCAGTACAGTTAGCATTTGGAACAAAATCACTTAGAAGAACAAATAAGCCTATGCAAGGCCATTTAAATAAGGCAAATCTTAAATCCGCTTCAATCATTGCAGAATTTAAATCTCTTGATGATTTTGATTATCAAATTGGACAACAATTTGATTCTTCTATTTTTAATATTGGTGAAGTAATTAATATTAAATCGATTTCTAAAGGGAAAGGATTTGCTGGAGTAATTAAACGCCATAATTTTAATAGGTCAGATGCAACTCATGGTAATAAACATACAGAGAGAGCCCCTGGTTCTATTGGTCAATCTTCAGATCCATCGAGAGTTTTTAAAGGGATGAGAATGGCTGGTAGAAAAGGTTCAGATTATGTTACAGTTAAAAATCTTGTTATTATGGATATAGACAGAGATAATAATGTTTTATATATAAAAGGTGCCATACCTGGCTCAAATAATTCAACAATTTATATTTTGAAAAAATAATGAAATTAAAATCAATAGATACTAATAAAGATTTTACCTTGAATGATACATTATTCAAGGTCCCAATGAATGAGCAGGCTGTTTATCAAACTGTTAATGCTGAACTTATAAATAATAGACAAGGTACAAGTTCATCTAAAAATCGTGCTTTAGTATCTGGTGGAGGTAAAAAACCATTCCGTCAAAAAGGAACTGGTAATGCTAGACAGGGTACAAGTAGATCACCTTTAATGAGAGGTGGAGGTGTTGTTTTTGGACCATCACCAAGATATTATTACAAAAAAGTTAATTCAAAGATCAAAAAATTAGCTTTTAAATGTGTTTTGTCAGATTTAGTTAAAGAAGAAAAATTTAAAATTGTAGAATCTATTTCAATAGGTTCAAATAAAACTAAAGATTTTGTCAACTTTTTAAAGAAATTTGAATTGGAAAATAAAAAATTAACTATTGTAACATCAACTATTAGTGATAATCTGTTTTTTTCAAGCAGAAATGTTAAGAGTATTAGACTAGTGAAAGCTAATTCATGTTCCATTATTGATCTAATGGATTGTCAAACAATTATTATTGATAGCGAAGGTTTGAATTCATTAAATGAGAGATTTGGGGATAAAAACTAATGAATACTCATTTCTCAAAAATTTTAATAAGACCAATTGTTACTGAAAAAATGACAATTCTTCAAGATGCTCAAAGAAAATATGCATTTGAAGTTCCAGTTGATGTTAACAAGCTTGATGTAAAATCAGCTGTGGAAAAAAAATTTAATGTTAAAGTTTCAAAAGTTGCTATAAGTAATAAAAAAGGTAAAATGAAACAAATGACTGTTAAAAGTGGAGGAAGAACAATTAGAACTTCTGGTTCAACCAAAATGAAAAGAAGAGCTATTGTTACTCTTGTAGAAGGTTATAGTATAGATTTATTTAGCGTATAAGAATTATGGGAATTAGACAATTAAAACCGGTTACACCAGCTGCTAGATTTGCTTCTAGACCTGATTTTTCAGAGATTACTACTGATAAACCAGAAAAGTCATTAATCTGTAAGCTCACGAAGACTGGTGGTAGAAATAATAATGGAAGAATTACTTCAAGAAGAAGAGGCGGTGGTCACAAAAGATCTTATCGTCTTATTGATTTTAAGCGAGATAAATTTAATATTGAAGGTAAAGTAGCTACTATTGAATACGATCCAAATAGAAGCTCTTTTATTGCGCTGATTCATTATGTTGACGGAGAGAAAAGATATATTATTCAACCTGATGGATTAAAGGTAGGTGATATTATTCTTTCTGGGGAACAAGTAGCTTTAAAGAATGGTAATTGTATGCAACTGAAGCATATACCTTCCGGTCAGTTTGTTCATAATGTTGAACTTTATCCTGGAAAAGGAGCACAAATGGCTAGAAGTGCTGGTGCTGGTGTTCAAGTTATGGCACATGATGGTGGATTAGTTACTTTAAAAATGCCTTCAGGTGAAGTTCGTATGGTTCAAGAAAATTGTTTAGCAACAGTTGGAGTTGTCGGAAATAAACAACATGAGTTGGTTAGTTCTGGTAAAGCTGGTAGATCTAGATGGTTAGGAAAAAGACCTAAAGTAAGAGGTGTAGCGATGAATCCTGTTGATCACCCACATGGAGGTGGAGAAGGAAAAACTTCTGGTGGACGTCATCCTGTTTCTCCAACTGGAGTTCCTACTAAAGGATTTAAGACTAGAAAAAAGAAGAAGAAATCTAATTCTATGATTGTGAAAAGGAGAAATAAATAATGTCTCGATCTATTATCAAAGGACCTCACGTCGATTTAAAATTGATGAAAAAAGTAGAAAAGATGAATGAATCTTCAAATAAGACCGTAATCAAAACTTGGGCGCGTCAGTCAATAATTATTCCAGATTTTGTTGGACACACCTTTGCTGTTCATAACGGAAATAAATTTATTCCAGTTTTTATAACTGAAAATATGGTTGGTCATAAGTTAGGTGAATTTTCTCCGACTAGAACTTTTAGAATGCATTCAGGAGATAGAAAGAAGAAGTAATTATGGAATTTGTATCTCAATCTAAAAACTTAAGATTAGCTCCAAAGAAACTTAGAAAAGTAGCTGATGTTGTTAGAGGTTTGAATGTTAATAAAGCTCTAATTTCTTTACAATTCATGGATGAAAAGGGCGCCTATTTTATCTTCAAAACTTTATCATCTGCCCTTGCTAATGCGAATGCATCTGATAATTTTGATAAAGATCTAAATTCATTAGTAGTCAAAGCTATTACAGTAGATGAAGGTCCTGCTTTGAAAAGATTTAGACCAAGAGCTCAAGGTAGAGCTACAAGAATTAGAAAAAGAACTAGTCATTTAAAGGTAATTATAGGTTAATTAATGGGACAAAAGACACATCCAATCGGTTTAAGATTAGAGGTTACTAAAAATTGGTCATCAAATTGGTTTCCAAAAAAGAATGCTTATGCTTCTGATTTAGCTGAAGATATTAAAATAAGAAAATATTTGAAGAACAGACTAAAGGATGCATCAATAGCATCAGTTATTATTGAACGAACTTCTCAAGCTATAACCATTAATATTAATACTGCCAGACCAGGAATTGTTATCGGTAAGGGTGGAGAAGAAGTATCAAAAATTAAAAAAGAACTAACTGCTCTATGTAACAATCAAAATATTCAATTAAACATTAATGAAGTTAAAAGACCTGAACTTAATGCTGAACTTGTAGGTCAAAATATTGCTGCTCAACTCGTAAAGAAAATGGCTTACAGAAGAGTTTTAAATAAGGCAATGCAATCAACAATGAGAATGGGTGCAGAAGGTATTAGAATTAATATATCTGGAAGATTAGGTGGTGTTGAAATAGCTAGATCAGAGAGATTTATGCAAGGAAGAGTTCCATTGCATACCATTCGTGCTGATATTGATTATGCGTTGGTTGAAGCTCATACAGCTTATGGAATTATTGGTATAAAAGTATGGATTTGTAATGGATTTACAAGGACTGAAAAATGATGCTAGAACCAAGAAAGATTAAATATAGAAGAGTTCACCGAGGTCACAGACGTGGTATGGCTAAGGGTGGAACCGAAGTTAGCTTTGGAAGTTATGGTTTAAAAGCTTTAGAACCTGGATGGATTACTGCTAGACAAATTGAAGCAACTAGAATTTCAATTTCAAGAAGAGTAAGAAAAATAGGAAAAATGTGGATTCGTGTTTTTCCAGACAAGCCTATCACTAAAAAACCATTAGAAACTAGAATGGGTAAAGGTAAAGGGTCTCCAGAATATTGGGTAGCTAATGTCAAACCTGGAAGAATACTTTTTGAAGTTGAGGGAATTTCAAGAGAAGTTGCACAAGAAGCTTTTAGAATTGCCGGAAATAAATTGGCGATTAAAACCAAACTTGTTGCTAGAAGAGGTTTAGATGAAAATTAGCGATCTAAGAAAAATGAGTTCAAAAGATTTAAGAGCTAAGCTTTTAGAAAACAGTGAATCTTTACAGAAATATCGTTTTCAAAAATCAATTCAGCAACTTGAAGATTATAAAGTTATTAAAGAAGTCAAAAAAGAAAATGCAAAAATTTTAACAATTTTGTCACAATTAGATGATATGGAAGAATCAAATGGATAGAAATACAAAAATAATTGGAAAAGTTATTTCTTCTTCAATGGATAAGACCATTGTTGTTAGTGTTGAAAAAACTATTCAACATAAACTATATAAGAAATATATCAAAAGGTCTAAAAAATATTATGCTCATGATGAAAATAATTCATTCAAAGTGGGTGACACAGTTCAATTAATTTCTTCTAGACCTTTAAGTAAGACAAAAAGATGGCGTGCTTCAAAATTATTAACAGGCGAGAAATAAAGTGATTCAACAAGAAACTAGATTAAAAGTAGCTGATAACTCTGGAGCAAAAGTTGTAATGTGTTTTAAAGTTTTAGGAGGATCAAAAAAAAGATATGCTTCTATTGGTGATATTATAGTAGTAGCTGTTAAATCAGCGACACCAGGAGGTATGGTTAAAAAAGGAGAAGTTGCTCGTGCAGTAGTTGTTCGAGTTACAAAAGAGTACAGAAGAAGAGACGGTTCATACATAAGATTTGATGAAAATGCTGCTGTTATATTGAACAGTAATAATGAACCTAAAGGTACAAGAATTTTTGGTCCTGTTGCTAGAGAATTAAGAGAGGGTGGCTATATGAAAATAATTTCTATGGCCCCAGAGGTATTATAATGAAAATTAGAAAAGATATGATTGTTAAAGTGATTTCCGGAAACTTCAAAGGTATGTCTGGAAAAGTTTTAAAAGTTTTTCCTGTTTCACAAAGAGCAGTAGTAGAAGGTGTTGCTTTAACTAAGAGAACTTTAAGGCCATCCCAAGAGAATCCAAAAGGTGGATTCACTGAAAGAGAACGATCATTACATGTATCAAACCTAATGGTTCTTGATGGCAATAATGCTGCTCGTGTTGGATTTAAAATCCTTAATGATAAGAGTAAAGTTAGAATTTCAAAGAAAACTGGTAAAGAGATTTAAATAAATGTATAACCCAAATTATAAGAAAAAATACTTTGAAGAAGTAAGACCTCATTTAATCAAAAAATTTGGTTTCTCTTCTGTCATGCAAGCTCCAAAAATTGAAAAAATTACTCTTAACATGGGAATAGGGGACGCTAAGAATAATCAGAAATCTCTTCAAAGTGCTCTAGAAGAACTTCTTTTGATCACTGGTCAGAAACCAATTATAACTAAAGCAAAGAAAGATGTTTCTAATTTTAAAATTAGAAAAGGTTTTCCTGTTGGTTGTAAGGTGACTTTACGTAAAAATTTGATGTATGAATTTTTAGAAAGATTATGTGCCATTGCTCTACCAAGAACTCGAGATTTCAGAGGTTTATCTAATAAATCTTTTGATGGATTTGGTAATTACAGTTTTGGCATTAAAGAACAAATCGTATTTCCTGAAATTGATTATGATAAAGTAGACTCATTAAGAGGTATGGATGTTGTTATTACAACTTCTTCAAAAAATAATGAAGAATGTTATGAATTATTACGTTCTATGGGGTTACCTGTTCGTGAAATTGTAAAAAAGGAAGACGATTCAAATGAGGATATAAATGGCTAAAAAATCTAAAATGGTAAGAGAGTTTCATCTTCAAAAGAAAGTAGATAGATACTTTTTAATAAGAAAAGAGTTAAGAGAAATCATCAAAAACCCTAAAGCTTCAGATGATGAAAAATTTGCAGCACAAGCTAAGCTACAGAAACTTCCAAGAAGTACTAGTGCTATTAGATTAACTAATAGATGTGTTGTTTCAGGAAGGCCTAAGGGTTATATGAGAAGATTTGGTATTTCAAGAATTACATTCCGTGAACTCGCTCTTAAAGGCGATCTTCCCGGAGTAACAAAGGCAAGTTGGTAAGGAGATTATTTTATGTCAATGACAGATCCAATAGCAGATTTT
>sequence05
AATAAAAACTTTTTAAAACATCTAAGTATGTGTCTTCAGTCCGAGAAATAGAATCAAGTCTTTCTTCCATCCCAGCAGTAAAAGCCTCATTAAATAAGTCTGAGTAATGATTGTCGAGCAGTTGACTAACTGCGATACCTAGGTATGTGGGAATAATAGCTTTGTTTTTATTTATTGCATAATCTCTATTATATAATTTATCAATAATAGAAGAATATGTAGATGGTCTTCCAATGCCCTTAGACTCCATTTCTTTTACTAGCATAGCCTCAGAAAATCTTCTAGGCGGAGTAGTAAATTTTTCAATTGATTCGCTTTTAACAAAACCTAATTCTTGTTTGAGGTTTAGATTTGGAAGAAAAGAATCGGATTTGTCGAATCCCTTGTGTGCAAACAAATTATAAGCTCTAGTAAAGCCATCGAAAACAGTTACATTTCCGGATGAAGCAAACTTTAATCCACCCTTGGCAATGATTACGTTGGTTCTTTCGTATCTTGCAGTTTTCATTTGGGATGCGAGAGTTCTAGAGAGAATGAGACCGTATAGCTTTTCTTGGCTTGGTTCAAGACTGAGAGCTCCAGGGGAGGTAAAACTACTTCCTGCCGGCCTAATCGCTTCATGCGCTTCCTGTGCATTGGCAATTTTATTAGAATATGATAGTGGTTTATTTGACAAATAATCATTTCCAATTTCTTTTAAAATAAATTCACGAGCCGCATTTAATCCCTCGCTAGATAAGCTGGTAGAGTCAGTTCTCATATAGGTTATAAATCCTTGCTCATATAGCTTTTGAGCTACAGACATAGTTTTTTTAGGTGAAAAGCCAAGCCTTCTAGAGCTTTCTTGTTGAAGAGTGCTAGTTGTAAACGGTGGGGGCGGAGAGCTTTTTGTGGGCTTAGTTTCTAAGCTATCAACTATCCATTGACTTTCATTGCTATTAATTTCTGAAAGAATGTCGGTTGATTTATCTTCTCCAATAATCATTAAATCTGATTTATATAGTTTATTGCTATACTTATCAAAATCTTCGCCAGTTGCTACATTCTGACCATTAACTGATACAAGTTTGGACAAAAACCCTTCTTTTTCTCCACCAGCAAGAAGAGATACTGTAATCTCATGATATTTATTTTTAACAAACCGATTTCGATCTTTTTCTTTGTCGACTAACAATTTTAATGCTACAGACTGAACTCTTCCAGCTGAAAGCCCAGAACCTTTTACGTTTCTTAGAGTTTTCCAAAGAACAGGAGAGAAGGTAAACCCTACGATTCTGTCGATAGCTCTCCGTGCTCTTTGAGCATCTACAAGACTTAAATTTATTTGTCTTGGGTTTTCAATAGCTTTAATAACAGCAGATTTAGTAATCTCATTAAAATCAATTCTTTCAGAACTTTCTTTAATGCTAGAGGCAATATCAAACGCAATTGCTTCACCCTCTCTATCGGGGTCAGTTGCAATAAGAATTCTATCAGCCTTTTTTGATTCGTTTTTGAGTTCTTGTAAAAATTTATTTTTTCCTTTAATGGTTTCAAATTTCATAGAAAAATCATTATCAATATCAATTGATAAATCATTTTTAACTAAATCTTTAAAATGCCCAACGCTAGCAATTACCGATGCATTTGGAACAAATTTTTGAATAGTTTTAGTCTTTGAGGGAGACTCAACAATAATTAAAAGTTTTTGGTTGCTGTCCATGGGAAATCAAGTTAAGTAGTTATCTTATGTTTGTCAAAAATTTATATTTATAATATAAATTATTGAATTATTTGTTCAATAAATCTTTTAAATGAGTGGTATTTTGTAATTTTATTTCTTTTTGAGTGCCATGATCAGTGATTGTTATAGACTCTAAATCTAAGAACATCGAAAAGCCAAGCTTTTGACTTTTTTTGAATTTATTTCTAATGCTTTTATCAGAAGTATCTATTAAAAAGGGGTGCTCCAAAGTAACCAATTCTTTAATGAAAGATAGATCATTGTTTCCTTGATGAAGACCGACATAAACCTTCCCTTTATTCAATTGTTCATAGCTAACCTTTGAGGCTAAAAGCATTCTTTCAAATCCAGCCGCAAAACCTACCGCACCAGTTTTTGGACCACCAAATTGTTCAACCAGGGAGTCATACCTGCCACCACCACAAATTGCATTTTGTGAACGATTATCATTTTGAACTACTTCGAATACATTTCCATTATAGTAATCTAAGCCCCTAACTAAACTGGTTTTGATTGAGAACTTGATTCCTAATGAATTGAGATGACTTTGAAGGTTAATAAAGTTATTTTTATCTTCAATGGATAAAAAGTCAGAGATAGTTGGGCCACCCTTAAGCGCTTCAACATCTTCAATAAATTTACTGTCAAGAATACGAATAGGATTGGATTCCATTTTTTCAAGAGCTGAAGGAGACAGTTGAGAATGTTTATCCTTTAAAAATTGTTTTAAATGTTTAGCGAAAACATTTCTTGTATCAGCGGTCCCAATATTGTTGATTTTTAAATTATACTCTTTTATTTGCAATTTTTTCATCGCCTCTATAGCAAATAAAATTACCTCTGCATCTTGTTCTGAGCTATAGCTACCAAAAACCTCAACCCCAAACTGATGAAACTGTCTCTGTCGACCTTTCTGAGGTTTTTCTCTTCTAAAAAGGCTGTCAAAATAAAAAAACTTTGAAAGAGGCTCGCTTCTGTAAAGGCCGCTTTCTATAAATGCTCTAACAACTGGAGCTGTCATTTCTGGTTTCAGGCAAATTTCTTTATCGTTCAAATCTTTCCATGAAAACATTTCTTTGGTAACATCTACGCTTTCTCCAGCGCTATGTTCGAATAATTCTCTATATTCAATTGATGGAGTAATAATTTCTTTATAACCAAAAATCTCAGCAAGATCGTAAAGCCTGTTTTTTGCCTCAGTCCATCCACTCATATTCTCAGGAGTGATATCGAATGTTCCCTTTACTTTTTGGTATTTAGATTTCATAATAAATTAGATTAATTAAAATTATTTCCATTTAACACTAAAAATTAGGCCTATTATTATAAATTCCAGACCTTTTTTCAATTTTCAAATCTTTTAGCATGTCAGACCTTAGGTTTAAGCGCAAGTAAAATCCCTTAGCGTAGCCTGTTGGAACCCAATCAGCATAAAATTCCCAACAATCAATTTCGCGATACATTGAAAGATTTTGTCGGACAGTTTTTTCATTAACGAAATCATACCTTATGGAATGTTTTATCTTCCAATTTTTTCCCACCTGAAAACTATTGTTTGCATTTATCCAAAACGTTTTACTTTCATTGTTCGGGTTCATTTTATTGAGAATCAAACTTAGACCAATGTTGGAGCTCCATCCAGTATCATTAATCTCATCAATAAATAAAAATTTATTTTCGTTTAGCAGAAAACTATTTTTGATTTTTCCAGAAAGGTTTAGCGAAGAAGAAAACTTTAAGCTTGTCAATCTTGGGGACCCGATCTTATTGCTTCTATTAGATGTATTAGAATCAAATTGATAAAGATCGTGGGTTGTTGAGAGGTCGAAATTTACTCTTTTATATTTTGATCTTAGGCTTGAATTAATTAATGACCATTGAAATTCTGGGCTTTCAAAATTATATGAAGTGTTAATTTGCAAACTGAATAAGTCTATTTTTTCACTATGCCCATTTTTAGCCAAACTTTTTGCTTGGAAAATATTTCCAAAACCTATTGACGCTCTTCTTGAGGAATTTCTGGGCGTAGAACCAATTAGAGACCCTTGAAAAATATCAATTGTTTCGTCGTCAACATTGATAAAATAATTATTATTATTCAAGTAACCGGGAGAGTAAGTATAGCTTATTCTTGGAGAAATTACATGCCTAATAGATTTTATTTTTCCAAGCTTTAGGGGTAATACCCCATAAATTTTTGTGTACAAATTAATTGAAAAGTTTCCCGTTAGTCTTTCTTTAATTCCGGACTGAAGACCCACAGACTCTGCTTCATCGGTTTTTAAGATACCTTGATATTGATTAACAAAATCTAAGTTAAGATTTGCATTTGGATTTACAGAAATATATCTGAAAAGTGTAAATGGAGCATTGAGAGAAAAATTATTTTTCATCATTGAATTGGAATCGTGATACACTTTGATTTCGCCATTATTTTTTGTTGACCAGCGCAATTGAGATTGATTGTTTTCAGATATGAACTCTTCTGCTTTATAAAAGTTTTTACTTACTGTTTTAAGTTGCGAACTATAGTCCCACTGCAAATCTGACAAAAAAGAATTTTCTATAAAAGGCAAACTTACATTTCTTCTTCCCACTCTTAGATAAACGTTTGGAAGAGAACCGCTATTTTTTATAATAGTAGAGTTTTTGTTCTGTGGATTAATAAAAAAATCTGAACCCATTATTACTTTTTCTTCTGCTAGGAGATCCTGAGAATTATCAAGGCTCAACGAAAGAGATATATTTTCTTTGGACCAATTTTTGCTATAACGAACGATAGACCTTGTTTTTTGGTCTAATCTTTCGCTTAAGTCTAAACTTGTTTCTCTATTCAAAGAACCTGAACTTGAAAAGTTCACATTCGCGCTTAATGATTGATTTTTTCTTAATATTTGATTGTGGTTCCAAAGAATTGAGTAGTCTGTTATGTTGTTTTGATTAAGATTAGTGATATTTTGTTCTTCATTCGCTAGAAACTTTCGTGTGCGGAAGTTGATATTGCCATTATATGAATATTTTTTTGAATAAATGTTTTTTGATTCGAATATTACCCCTTGCTTATCAGCAAAAGTTATTAGGTTCTCCGATCCAAAATAATCATTAGGGGCGAAATAATACCCCAACCCATCTAAATAAGTTCCTCTAAAATTTGAACTACCGATTGATGGCATTATCCAGCCACCCCTTCTTTCACTTGAAGAGTGAGGGAAAATTGCTACTGGTATTCCTAAAATAGGTATTCCGCCAATGTAAATATTTAAAGGGCGCGCAATTACTTTATCATTATATAAAATTTTAACATTTTTGCTACCTATGTAGAAAGATTTGGAGTTACAGTTTGTAAAAATACAATCATTCATTAAAAAAGTAGAATCGTTTACAGTGGTAATTACTCTGCCAGTATAAAGCGTATCTTGCACGCGGGTTTCTCCCTGAACAATCTTTCCATTTCCAGACTGGAGATTGTATGTTATTTCATTCCCATACACAGGAGAATTATTTTTTTCTGTGAATTTCGGAGTGATTTTTTCTTCTTTATTGAATGGATTAAAAGAAAAGGCGCTAAGAATTTCTGATTTTAAATCCATTTCAATGCTAGCAGCACTTATGTTGACATCTCCGTAGTTAATGGACGATTCCCCATAAAGTTTCGTTTTGTTGTTTTCAAAATTGAAATCAGCTTTTTCAGCAAAATAATCAATCTCTTCATTTGGGGATGTATTGGATGAAAATCTTTTATAATTACCCATTATTCCACCTGAGGCCTTCATTGAAATGATTTCTTGATTTAAAAAATCTACAGTAATCAAGTCTCCAGTAATCAAATTCTTACCCTCTGTCTCTGACCCATTATTGATATAAAATTCTGAAGAGGCCATATTTTCAAGTGAAATGAATTTTAAAAATCCATCCAAGAATGAAACATTTATTTTTTCTGCTCGTAAGATATTTTGGTTAGAAAATTTTGATTCTAAATCTCTGTTGATTATGACACCCTTTCCTAAAACTTCAACATTTTTAATTAAATCTCCCTCGATAGCAACTATTATTTGAGTTCCTTGAATTTCATTGGAAGCTTCAAAAATTTTGGGTTGTTTTTCTAAATCAATAATATTCGTTTCACGGTTGAAAACTGCTTGGTCGCTTACAAGAGAATAGCCATTAAATTGAATGGAGGTATTATTTTTTAATTCAATTATATTGTTTTTTGAATCGAAGACAATTATATCTGCTGCCATCCTTTTTGATTTGTCTTCCAGCTCCACGTTGCCATTAAGCTCTAATATGTCCTGTTCAATAAATCTAATGGCCTTTTGAGCTTTTAAAACAAGTGAGTCTTGTTCAAAAATGACATTACCTTCTAAGCGAACAACTTTTTCGCCATTTTGTGTGGAGTTAGTGAGTTGATCAGCGCTAATAAGTTTTAAATTTTGAGTGAAAAGAGCACTGAGTAGCACTAAAAATGAAAGGGTTTTTTTAATCATAAAATAATTTACAAAATTAAGAACAATGGATTCATTTTTGTATAGTATATTTAAAATGTATTAATTTCTTTATTATGATTGATTCATTTTTTGATAGCATATTAAGCAACCCATCTTATTTGGCTGTTTCAATAGTAGTAATTACACTGCTTGCATTTTCAGTAGTGAAAAAATTATTTAAGCTTGTTTCACTTGGTTTAACTCTTTATTTGATATATTGTTTATATTTGGTTTTTACTGGTCAGCCTGTTCCTACTTTTGAAAGTCTCTACTCAGATTTTAAACTTCAAGAAGAAAAGCTTAGCGATACCATAGAAGAAAATATTATCAATCCAATGAAGGAAAAAAAAGAAACTATTGAAAACAATATTAACCTTTTAAAATAAACCTATGTTCGAAAGAAATCTTCTTAAAAATAAAAATATCATTGTCACAGGCGGCGGTTCAGGCCTGGGTAAAAGTATGGCCAGACGCTTTGGAGAGCTCGGGGCTAATGTTGTCATCTTTGGCAGAAGAAAAGATATTTTAAAAGAAACAGAAAATGAATTTAAAAATCTGGGTATTAAAGTTTTATCTGTAGATGGCGACGTTCGCAAACCTGAAGATGTTCAACACCTTTTAGATTGTTCAAAGAAAGAGTTTGGGGTAATAAACGGACTATTGAATAATGCGGCCGGAAATTTTATCTCTCCAACTGAAATGCTTTCTCAGAATGGTTTTAAATCAATTGTAGATATCGTTTTAATGGGAACCTGGAACTGCACCTCAATTATTGGAAAAGAGATGATTGATAATAAAAGCGGAACCATTTTAAATATTGTTACGACATACGCTTGGACAGGCTCTCCGTTTGTTGTTCCTTCAGCTTGCGCCAAGGCGGGTGTTTTAGCCATGACTAGATCTTTAGCAGTAGAGTGGGGCAAATTTAACATTCGATTTAATGCAATTGCTCCCGGTCCTTTCCCCACAAAAGGTGCATGGTCAAGACTCATGCCCCCAGGTTTTGAGGAATTTGAAAACTCAATGAAAGAAAAAATCCCTATGAAACGTTTTGGAGAAAGACATGAGCTTGAAAACCTAGCCTCATATTTAATGTCTGATGGTTCTGGATATATTAATGGAGAGGTTGTGACTATTGATGGAGGGGAATGGCTTGCGGGAGCTGGAGAATTTAGCGATCTCTCAAAAATCCCCTATTCTCTTTGGGAAGAAATGTCAAAAATAAGAAAAGAAAAAAAATAATGTTTCTTCAAAATAAAACAGCAATTATTTCAGGAGGGTCTAAAGGAATTGGCCTGGAAATAGCAAAAGCTTATGCTCGTAATGGTGCAAATGTTGTTATTTGTAGCAGAAAAAAAGAAAATTTGGATGTAGCATTAGAAAGTGCGAGCAAAGAGGGTGTTTCATTAAATATCATCACATGCGATACAGCGGAAAGTAATTCAATTAAGGAAGTCGTTGATTTCACCTTAAGAAAATTTAGCTCGATTGATATTTTGGTCAACAATGCAGCTGCTAGCCCATATTTTGGTCCTATTATGAAATCAACAGGAAAAGACTGGGATAAAGTTTTCAAGGTAAACGTACATAGCTATTTTGAATTTGCTCAACAATGTTTCCCAACAATGAAACAAAAAAAATATGGAAAGATTATTAATATAGGATCGGTTGCAGGAAAAACTCCGATGGAAGGTTTGGGAATATATAGCATTTCTAAGTCTGCAGTAATGATGCTCACGAAAGTGTTAGCTAAAGAATTAGCTCCTGACAATATTCATGTCAATGCTATACTTCCGGGAGTAATAAGGACAAATTTTAGCAAGGCACTTTGGGACAATGAAGAAATTTCTAATGAATTATTAAAAATAATTCCTCAGGGCAGGATAGGTGAACCAAAAGATATTGTTGGAATTGCGTTATATTTGGCAAGTGAAAGATCCAACTTTATTACTGGATCTTTATTTTCTATTGACGGAGGGCTAACAACTTAAGTTTGTTTAAGCCAACTAAATAAATCTCTAATATTTTTAAAAACTGGCGAACCAGTATTTTTTAATCTTTCATAATCGTTATGACCATTCAGAACCAAAGCACAGTCAATACCAAGAGCTTTCGAAACATTAAAATCGAGCATACTGTCGCCAATGATGATAGTTTCTTCTAGAGGGACTTCAACATATGAAAGCAACTCTCTTCCTTCGTATTCTTTTCCAAATCCTGAAGGAGTATTTTGTAAACCCACAATATTGTCAATAAAAGGTTCAAGAGAAAAAAATGAAACTTGCTCAACAAGCTTGTTTTGCATGGTGGCAGACAAGATGCTTTGAGTTATTTTTAATGATTTTATTGAAGAAATTGTTTCTTTGGCATATGGCTGAAGAGCAAGAGTTTTAAAATTTTTTTCAAAGTTTTTATGAAACTCCACATTTGAATCCTCAAAGGATTCTTTTTCAAAATCAAATCCTATGTTTTCATAAAAAGATTTGATTGGAAATAAAAATTTTTTTTTATAGTCCTCAATAGTAATAGCAGGGATGCTTCTTTTTTCTAGAGAAAGGTTTAAGATCGTCACACACAACCTTAGGTCGTTTAACAATGTACCATTCCAATCCCATATTATATGATTATATTTCATGGTTATGAAACTAGATAAAAAAATAAACTATTTAAAGGAAAGACTTGATGTAGAAAGCCTGCCCGGATGGGAAGCTCAAAAAAAAATGGCTGCTATTCCAATTGACACATATACAGAAAATTTTTTTCTCAATCCTAAAGATTATAAAAAGGCAGGAGTTGCAATTATTCTTTTCAATTTTGAACAAACAATAAAATTTTATTTAACTAAACGATCAGATAGCTTAGAGCATCACAAGGGGCAAATTTCTTTCCCCGGGGGTTCCGTTGATGGCAAAGAGTCAATCCTGATGACAGCAGCCCGAGAGGCAGAAGAAGAAATAGGGGTCAAGCGACATCAAATTGAATATATTGGATCTCTCTCGCCACTTTATATTCCCGTATCAGGCTTTAAGATTTTTCCTTCAGTTTGGTTTGCAGGCGTTAGACCAAAAGTAAAACTAAATCCAAAAGAAGTATCTGATATTTTTGAAATAGAAGTTGATGAAGTTTTAAATGAAGAAATTTTTTCGCATAAGAAAATTTCATTTAATTCAAAAGTTTTTAATGCGCCAGCATTTCAATTTAAAGATTGCTTAGTTTGGGGAGCTACAGCTATGATTCTTTCTGAGCTTAAAGAGATTTTAAGAGAGATCTAGTTCGTAATTACAGTTTGAACATTTAACTTGACCCTTTTTTGAAACATCTTCAAAACAAGAAGGGCAAGAGTCGTTATTAATTGGATTATTTTTTTGAATTTTTTGTGGAATAGCAGATGCTTGGGACCAAAGATATGATACACTGGCAAAAGTTAGTAAGTATGCAATAGCTTCAATTGCACTTGGATTACCATTGTAACCGAAAAGACCCTTTGCAAAAACTCCTATAGTGCTTTTTTCATTGAGTAGATAATTTATATCCCAAATTGGACCGTAATATGGGACCAAGCCAGCTTCTTCAAATTCATGAATACCATAAGATACTAAGCCAGCTGCAACAAAAATAAGCAATACTGATGTTATATTGAAAAATGTTTTAAGTGGGACCCTTTTACCCTGAATAAAAATTGAATAACCTATAATGATCGCAATTAATATCCCAACTAAAGAGGAGATAATAGACAGGTTACTGTCTTTAATAAATATACCATAAAGAAATAAAACAGTTTCTATTCCTTCTCTGAAAACAGATACAAAAGCCAATAAAAACATGCCTCTTGCTGCATTTTTTTTATTTTCTATCACAGCTGAAGCTTGATTTTCGAGACTTTCAGAAACATTCTTATTTCTTGCCATCCAAACAATCATTGAACTAAGAAGTACAGCAGCAACAATCATAACAACACCTTCAAAAATTGCTTCAGTTTTTCCAGTAAAACCGCCTAAAACTAATTGAAAGAAAATTGCAAAAACAATGCTTGCAACAATCGCAGAAGTTAGTCCTCCGAAGACACTGGTTTTTAGATAGTCCTTACCTGTCTTAGCTATAAAAGTGAATAGAATACCTATAATTAAAGCAGCTTCTAAAGTTTCTCTAAAAGTTATTAAAAGTTCAGCCATTGAGAACGGAATATATGTTAAAAAAATATTTTTAGAAAGATTTATTGAGAATTAGTCTCAATTATTCAACTATCATATATCCTCTCATAGACATTGCATGTGCAATAAAAGTGCAAACATAGAGATATTTTCCAGGTTTTTTGGGGGCAATAAACTCTAAAACAGTCTCTTCTTGTTTATCAATTAAAGAAGAAAAAGCCAAAATTCTACCATCTGGGTAAGGGTTTCCTCCGTTACCTTCAGCTAGTTTGATAATTTGCATTGCTGCAGAATCATCATTAAAAATAACTATGTTGTGTTTCATGTCTCCTTGGTATTCTAAAGGAGTATTGTTTTTTAAAATTATTTTTACAGGTGCGCCAGCTTTTACAGTAAACTCATTGAGATCATATTTCATTTCAGATCCCAACGATCCTATATTGATGATTTGTGGCTCAGAGCTTGCTCCACCACATGCCACAAAAAATAGTATCACTACTATAGATATCCATTTTTTCATATTGTTTTTCTCCTAAATATTCTTGGAATTATTGAATTTGAATTTTGCATATACTCTTTATACCCAGGCTTGCTTAACGCTAATGCGCTGTCCATAATTGGGCCAGTAATTTTATAAAAGATTAAACCCATTAGCAACGGACTTATTGCGCTTATTGCTATAAAAAGAAAATTTTTACTAGAAACACTAAAAAGAAAAATACTAACCCAGACCATTAAATCGCCGAAATAGTTTGGGTGTCTAGAAAACTTCCATAAACCCGATTGTATAATCTTCCCTTTGTTCTCAGGATTTTTACGAAATTGTATTAATTGAATATCACTAATTGATTCCCATAAAATTCCAAAAATAAAAAAACTACATAATCCAATTTTTTCTAAGCTACTGAAATAAGCAGTATTTAAATAGCCAAAGTAAATTGAAACACCTATAAGGGTTGCAAGAGATCCTTGCAATATAAAAACTCTAAATAAACTAATAATCCAATATTGTTTTCCGCCCTCTTTTCTCCATTCAACATATCTAAAGTCCTCTCCATGTCCAATATTTCTTATCCCAATATGAAAAGCAAGACGCAATCCCCATATTGTTATAAACGCTAATAGCCACTGACCTCTTTCATTGTTTTCAACCTCCATTAAACTAAATAAAGATGATGCTAATACTATAAATGCTGGACCCCAAAAAATATCCACTATGCTGGCATCTTTTGCTAGCAGGCTTAAAATCCATAAGGATGTCATAAAAAGTAAAACGAAAAAGTACCCTATAAGCAAGTGATGATTCAGTAGAATTTGATTTTCTGGCGTTGATATGTAGGAAATGATTGTAATAATTAGTGCAAGAAATAAAATAAATGTCAAAATATTTTTCATGATTTAATACCTGAGTATTTCAATGTTGTTTCCCGACTTGTCTTTAACATAAACAGAAACTGATCCATCACGATGTTTAACTGGGGTACCATAGTCTTCAACATTCGATTTGAGAATAGCAAAATGAAACGGGTGTTGTTCAGGCAATACAAGTGCGAGCTTCACATTTTCAAATTCTAGCATTGCCCATGAATCGTCTTGGTAAAGAACAGCGCAATTAAATTCTTTCAAATACCAGTTAACAGACTGGCTAATGTTATCAGTACATATTGCCAAATGATCTATAATATCTTTTTTTTTCATGAATTTGATTTTGAAATTTAATAAATCCTTATGTATTTTGATATAAGATATGAATGATAAAATTCCAATTTTTCCATTACCGCTTGTAGTCTTGCCAGGTGAAAAAATTCCTTTACATATTTTTGAAGAGAAATATAAAAAAATGATTGAGTATTGCTTAAAAAATGATAAAAAGTTTGGAATTGTAAACACAAAAAATAATGACTCTCTTATTTTTGGTTGTACTGTGTCCATTGAAAAAGTTTATAGTGAAGATCAGTCTACTGGAGAATATGATATTATCGTTGCTGGAGAAGAGCGCTTCATTGTTAAAAGTTATAATCATTCAAAGTCTTTTAAAGAAGCTTATGTTACCATATGGGAAGACAGCGATATCTTTCACGACTCTAATAGTTTACAAAAAACAAACGCCCTTTTTTATGAAGTGCTTTTAAAGCTTGGAGAAACAACGCAGATATCACAGTTTGAAGCCCCTAAAAGTTCTTACGAAATTTGTTCGATGCTCGATATAAATTTAAATGCCAAAAAAATCTTACTTAAATCTCAATCTGAAAATGACCGCTTAATTCTCTTAAGAAGACTTTTGAAAAAAGCTATTATAAAATTAGATCAGTCTAAGGGTGGCTACCTTCAGAGCGTAGAACATATAGCTGCTCAATACGAAGCTTAGTTTTTTTTCGGTTTTATATTTCCTGAAAATATTTTAATAAAATCATCAACAATCGCATAAGATACTGGTACTAACAACAGAATAACAAAAGTTGCAAAAAGTATTCCAATCCCCAAAGAGATTGCCATCGGCTTTAGGAAAAGCACCTGCGTTGATCTATTGAATAATAAAGGAGCGATTCCAAGAAAAGTAGTAAGTGAGGTCAAAATAACCGGACGAAATCTAGTTCTAACTGCATCTAAAACCGCATCTCTTGTTCTTGCTCCTTCTTCTTTTGCACGACTTATAAATACTACTAAAAGGAGACTATCGTTTACCACAACCCCCGAAAGGGCTACTACACCCAGGAGTGAAAGAACAGACATCGGTTGGAACAATAATAGGTGTCCTAAAATGGCACCTACTATTCCAAAAGGAATTGCTGATAATACAATTAAAGGTTTAAAGTAAGATTTCAAAGGTATAGCCAAAAGAACAAAGATTGTAAAAATAGCCAATCCAAATTTTATAAAAATATCATTTAGTTGTTCCGCCTGTTCGGCTGCCTCTCCAGCCAATGCAAAATCAACTCTTCCGTTTTTTTGCTCTAAAATTCTTTTTAGTTCACCTTTTGGTTTATTTTCTGCATTTAGCATGCTACTTAATATCATTGTTGAGGTATTCTTGGTAATATCAACATCTGCAGTTACTTGAATAACCCTGTTTCCATCAATTCTTGTTATAGCTGATTTTCCTTCAGTTTCAACAATGTTCGCAACTGAGTAGAGGGGAACTTTAAATCCCTGGCTTGTTCTTATTCTTAAATTATTTAAAGTAGACAAAGATTCTCTTTCTTCTCTTGGCAGTTTTAACATAACCTTAATATCATCATCGCCCCTTTGAATTCTTTGAACTTCTTCACCATAAAATGACTGTCGAATTTGTCGTGCAATTTCAATATTGGTTATTCCATAAGATTCAGCGTTTGGGAGGAGATTGATCTGTAGTTCATTTTTCCCTCTTTTATCTGAATCGTTTATATCTATAGCACCATTGTATGAAGATAAAAGTTTTTTTGTTTCTGAAACTACCATATCTAAATCTTCAAAACTTTTTCCTGAGAATTCATAATCAATAGGCTTTCCAGCATTAAAAATATTAGCTGAAAAATTTAATCGCTCGACATCAGGTATCGTTCCAACGCGTTCTCTCAAAATATTAATTACTTCATTGGCCCCAGTTAACCCCCACCTTTCATCTGCCGGACTAAGGATTACAACCACTTCTCCCAAATGAGGCGTAGAGCTTGATTGAACGGTCCCTCCCTGAGGACTATTAGCAGCCTCTTGTTCGCTAAAGTATTGAGCACCAACAGTTGTAAGCACATGAGTAATTATTGGTTGGCTATTTTTTTCAAAAAGCTCTTTTTTTAGATTAAGGGCTTTTTCTTCAATAATAGCAACAATTGATTCAGTCTTTTCTATCGGAGATCCCTCTGCAAGCTCCACGGTGATTGCAACTTCTTCAGCTTCTAAGACAGGGAAAAATTGCCATTTAACCCATCCTCCTCCAACTAATGAAAACGATAAAATTAAAAGAGATATAAAAATTGCAATTGTTTCATATCTAAATTGCAGAGCTTTTTTAACCATAGGTAACCAGAATCCATCCACAAAATCATAGAGTTTTTCAGAGCAATAATTTCGACTACTTTTTAAAACCTTCCCAAACTTTATGAATCTTTTTTGGAACCACTCCCCCGCATGATATAAATGGGAGGGTAGTATAGTAGTTGACTCGATTAAAGAAAAAATTAAAATTGGTATAGCGGTCAATGGAAAAGTTCTCCAAATGGGCCCTGTATCTCCTGCTAAGTCAAGCATTGGTGCAAAAACAACAATTGTTGTTAAGACACCAAAGAAAACGGGCGTCAAGACTTCCGTTGTACCTTTAATAGTTGAATCATAGTTATCTTCTTTAAGCTTTATCCTTCTTCTAAAAACATTTTCACCTACAATAATGGCATCATCCACTACTATACCAAGAACGACAATAAACATAAAAGTGGAAAGCACATTTATTGTTACTCCCATGAACGGCAAAAGAATTAACGCACCTCCAAATGAAATGGGAATTCCCATTGCGACCCAAAAAGCAACTGATGGTCTTAAAAAAAGGGTGAGTAATATTAGAACTAGAACCATTCCGACAGCAAAATTTTTGTAAAGAATACTAATTCGATCTTCTAGATATCTTGCCTGATCATACCAATATTCAATCTTAATGCCTTCTGGCATAAGATTTTTTTGATTATTTACAAATTCTCTTAATTGATTTGCAGCAATAAGAACATCTTGTTCACCCACCAAGTTGGCACTGATAAACATCGCAGGAGAGCCGTCCCATCTAAAAAACTTTTCAGATTCCTCAAAAGAATCCTTTATGGTAGCAACATCTTTAAGAAGAAGTTGATTCCCATTCAAATTTGTTTTAATAACTATATTTTCGTATTCAGACCCACTATAAGATTGGCCAACTGTTCTTATTAGTAAATCACCTTTCTGGCTTGGTAAAATTCCACCGGGCAAATCTATTGAGCCCAAATTGATTGCTTGGGCAATTTGGTCGAAGTTCAAATTATATTTTTCAAGATTCTTTTCTGACACCTCAATAGAGATTTCTTTATTTCTTTGACCAAAGATCTCAGTAAATGATATTTCACTCAGGTTTTTAATGTCCTCATTAATATTTTTAGTTGTCTCAAGCAATACATTCTCATCAGCGTTCCCATAAATAACAACATCTAAAACCTTTTCATTGGTATCTAATTTTTTTACTAATGGCGTTTCAGAATTTTTTGGAAAAGTTGTAATGGAGTCTATGATATCCTTGATATCATCTAGCGTGGAGTCTAAATCTTCATTGGCAAAAACTCTAATGGTGACAACCCCCAAACCTTCAAGAGAACTAGAACTTAATTTTTTAATTCCAGCTACACCTTCAAGTCTGTCTTCAATTTTTGAACAAATACTTGCCTCAACTTCTGCTGCCGAAGCCCCGGGATATGGGACAGTAATTAAAACAACATTTGGATCTGGTCTTGGAAAAAACTCAGATTTAATATTTGGATAAGAAATAAAAAAACCTCCGACGATTAAAAAAATCATAAATAAATTAGCCGGAACGCTATTTTTAACAAACCAAGTAACAATACCTTTCATTTTAATATTTTGGGTTAACCATCATAGTTGAAGATGAAATTGAAATTTTTGAAACCATAATCCTTTCTCCAGGTGAAATTCCATTATTAATAATAACATTTTCGTTGTTTTTCTTTAATACAGAAACTTCTCTAATTTCAATTCTGTTATCATTTCCAACAATGATAACTTCATTTTTTGCATTTATTGCTTCAGATGGAATAACATAAATATTTTCTAAAGTTACGCCACTAATTTCAGCTTGAACAAAAAGACCTAAGGGGATGCTGGGACTATTTTCTTCAAGTAAATCGTTTTCAAAATAGCCAATTAATTTTACCATTCTAGTAGTAGGATCTATTACTCCATCAACGCGCTCTAAAAATCCTACCCATTGTTGATTAACTCCTTTGTATGGTGCAGAAATAATAATTTCTGATTTTTGGTAGTCTTCGAGCTTTCTTCCATCCATGGGAATATTTAAAAATCGTAAATCAGAGTCTTGAACTGACAGTTCCACTTCAATTAAATTTGATTTATATATTGTTCCCAGGGGTTGTCCAGGAACTACTGAAGAGCCAAGATCAATATTGGCACCCTGTATTCTGCCGGTATATGGAGCAGTAATATCTGTTTTACTTAGTTTTTTATTCGCTGAGTCAACAAGAGCTTTGGCTGCATCATATCCAGCTTTGGCTTGTTTCAATTGAGGTATTTTTAATGCTAGTTCGCTGGGCTCAGTTTTTTGATTAATTTTTTCCCAGGCTTCTTGCGCTATTTCTGCCTCAGCTAATGCAAGCTTGTATTGAATATCTGCTGTTGCAAGCTGAAGTTCAGCGTTTTTCAGAGAAAGTTTTAAGTCAGTATCATCAATTTTTGCAAGGATCTGACCTTTTAAAACTGAACTACCTGCAGAAAATTGATTCGATTTATAAACTATCTCACCCATAACTTCTGAAGTTAGAACTGTGTTAATAGTGGCTCTAGTGGTGCCCGAAGATAGAATCTTAGTATTCCAGCTTTGAGGAAGTGCAATCACGACTTTTACATCTGGTGGTGGTGCATCAGCAGCAGGTTCAGGCTGCACTTTTCCTAGCGCTACTAGTATGTAGCCTATTATCAAAGATCCGATAATAATGAACAATGGCTTTAACCTATCTTTTAGTTTCAAATCTAAACCCTCCTCCAAGTGCTAAAATTAAATTGATTCTTTTTTCAATGCGCATTTTTTCTGACTGAGCTAGATATATTTTAACATCTGATAATCTATTTTCTTGAGTTATTATTTCTTCAAACCCTACGATACCCTGTCCGTATTCTTTCAACGTAATACTATAAATTTTTTCAGTCGCTTCAAGAATTTTAATTGATTCATTTAATGCAATTTGGGCTATTCTATCCATCTCAAGCGCTGTTTCAACTTCTGCATAAGCCCCTAAAACTTTTGACATATAATTATACATAGCAATTTCAGCATTGTTTTTAGCTAATTTGCGATTATTAATAAGTTTCCCAGAGTTGAATATGGGTGTAAAAAAAGATATTGAACCGCTCCATACCTTAAAATCTTCATCAAGCAAATCCTTCAAATCATTAGACGCCGTACCATTGCTTCCAATAAGATTAAAAGATGGAAGCAATTGTTTTGTAGCAACTTTCTTCTTTTGCAACGATGACAAAAGCGCAAAGCGTGCTGATAACAAATCTGGTCTTCTCTGAATAATTTCAGATGGAACATAAGATGGAATTGGGGGTAAGGACCCTGGAAAATCTTTTTTTATTCGCTCATTTTCAATAAGGGGAAACATGGATTGTAGAATTTTTGTGCTTCTAATTAGACTATTGTATCCAGCCCTAATATTTTCATATTCTGTATTTGTCTGTGATAATAAAATTTCTATCTGTTTGAGCTGTTTTTCAGAAATAGAACCTTGTTGATAGCGCTGATATGATAGCTCATAAAGCGTAGTCAAATTTTTTAATTTTTCCTCAGCCCAATCCAAGCTCTTTTGGAGTTCAACCGTTCCATAAAAAAGTTTAATGGCTTCTGCTGTTAATGATAGTTCATAATAATTTTGAGAATATTTAGCGGAAAGATAGTCCATTTTAGATGCTAAAGACTGATTAAAAACTTTTCCCCATAAGTCAATTTCCCATTGTGCAGTTAAGGAAAGATTGTAGTTTTCTTGTTCAAAGCTAGTTAGTTGGCCATTATTTTGACTGCCAAATAAATCCTGAAAGAAAGGCGGGAACCCAGCAGTGTTTTGCTCAGATTGGTTTCCACTAGACTGTAAAGCAAAAGACGGAAGCAAAGAAGCCGAGGTAATCTTTGATGCTAAATGGGCATTTTGTACGCTTATCAAACTGGATTTAAGATCAAGGTTGTTTTTTTGGAAATTTTCTATAAAACTCATCAAATTTTTGTCATTGAATTCTACCCACCAGATTTCTTTATTTGGAATTTCAATCTCAGAAATTGTTTCCCATTGTTCTGGGATTGAAATATCAATAGGTTTTAATACTTCTTCACCGTTTAAATATTTGCTATTTGCGCATCCAGCTAAGATAACTAGTAGAAGAATTGAAAAATTTTTTTTCATAACTATCTTTTATTTAAACACTCTGCAAACTTAAATAGTATTACTAAGCTAATAACCCATAAGGCGCTGATGATTACCATGTTAGCCATACCGGCGCTTACTTGCACTGCCTGTATTTTTTCTCCACCAATATATGCTAGAGGAGCTAAAATTCCATAAAATCCGATTAGTAGAAATCTACCTCTAAGAAATTTTAAGGAATGAAAAATTTGCGAGGCGAATCCAATCCACATGCATAAAATCCAAATAGGTGATAGGTTAGGAAAATTCTCCCAAGATCCAGCATATTTTACTATACCTAACCCGCTAAGCAGACTATCAACAATAATTCCAAGGAATAAAGAAAGAGAAATTAATTTTAGCTCTACAACTTTTTTCTTTGATACAATTTGAAGATGAATTATGATATAAATTGTAGTAGGAATGATAGCTAAAAGGAAATTTTCATTTTTAGCAGAAAAAGCACAACAAAACCAAACTATTGTGAAGCCAAAATAATTGAATGCAATTTTCAGTTGATTAAAAATACTACTAAGTTTCACTGTTAAATTTATTTATTATCATTTTTTTTCTATAAGAGAAAATTTCTTCAATTTGAGGAGCTATAATGATTTTATTTACCAATGATTGCAAAAACTGAAGAGGCAAAACATAAGTAACCTCATCAATAATTTTTACTCCGTTGGAAGTTTCTAAAAAAATATGTTTGTGATGCCATAAGCTATAGGGACCCTTCATTTGTTCATCAATAAACATTTTATGGCTCTCATAAGAAGTTATCATTGTTCTCCATCTTTGCGGAATACCAAATATTTTAACTGTATAGTCAATAATTGCTCCTTCTTTCATAGCAATAGGCGTTGGGGTCAAAATATGAAAACCCATTTTAGGGGGTGTTATTTTTGAAAGATTTTCAGGTTGTGAAAAAAATTGAAAGACAGAATCTAGGTCACTATTAATTTCTTGTTCAGCATTGAACTTAAAAACTTTCTTTTCCTGAAAAAAAGAAAGTAGGAAAAATAATAATATTGATATAATGATATAAAAAATAATATTCATTGAGAAGTCCTTTTGGTTTGTGGCTCGGGGCGGACTTGAACCGCCGACACAAGGATTTTCAGTCCTCTGCTCTACCAACTGAGCTACCAAGCCATTTTTTGAAAATAATTTTAAAACAATTTAGCTCGAAAATTTAATCATTTAATTATAAAAATCATTATTTATATGATTCAGAGTCCAATGAAAATATTTGAGTTAAGTTTATTTAAAAATAATTTTAAACTACTGATGTGAAAAAAATTATTATCGCTTCCTCAAATTCGCATAAAATTGAAGAGATATCTCTCCAAATTTTCCCCTATTTTGAAACAATACTTTCTTTGAAAGATTTTCCAGAAATCAAAGAAATTGTAGAAGACGGGAACACTCTTAAAGAAAATTCGTATTTAAAGTCATCAGCCCTCTATGAACACTCGGGAATAGCATCTTTAGGTGACGATACGGGCCTAGAGGTTGATTTTCTTGGTGGGGACCCAGGAGTTTTTTCTGCACGTTATGCTGGAGAAAAGGCAAGCGATAATGATAACCTTCGTAAGCTTTTACAAAAGATGGGTCAGACAAAAAAAAGATCTGCCATCTTTAAGACAGTTATTTCATTTGTAGATGGAAAAAATGATTTTTTTGTAGAAGGTGTTTTAAAAGGAGAAATTTTGAAATCACCCAGGGGAAAGAATGGATTTGGCTATGATTCAATATTTTATTTACCTACTATTGGAAAGACGTTAGCAGAAATGTCGATTAAAGAAAAAACTCTAATTAGCCATAGGGCTTTAGCAATGGAAAATTTTTTAAAAGAAATAAAGAAAATATTTTAGAATGTTAAATAAAGTTTATTTGTCAATTTTTTTTCTAGCTTCAATTGTTTTTTCCAAAGATACTTTTTCACAAAGTTTCTATATATTTGAAAATCACTCAGGACCAAATTTTTGCTTGAATGACTTTTCTAATTATCCTATTGGCTTGTTTAATCTGAAGAATAAAAAAGATGAAACTATTTTTCATATTGATTTTAATGAAAAAATAATATCTATTAAAAAAACTGGTTTCGCTGAATCTCAATATACCACCTATTTTTCAACAAATGACTATCTCGCTTCTCTAATAAAATCCAATAGAGACAAAGCTCTTTTTCAATCATTTGCTTTATCAAGTTCTGATACGACCTACGTAAAGAGCAAAGACAGTTTTGTAGAAATAGCAGGATTGGACTTAGGTGGGTTGGGTAGGGCTTCACTCAGGGTGCAAGGAAATATCAATATTTCAGGTAAGCTTGTTAATCAAGATCAAGAATTGGTAAGATCATCTTATCGAGAACAGCAAACCAAAAATTTTAAGTTTGATCAAAAGCAGCAATTGAATGTTCAGGGAAAAGTTGGCGAAAGAATTACTATTTCTCTAGATCAAAATTCTGAGAGAGATTTTGACTGGGAAAACACGATTAGAGTTGATTACCAGGGTGACGAGGATGATATTCTACAAAGACTTGAGGCGGGAAATATTTCTTTGTCTCTTCCTGGAACGGAGTTTGTTACTTTTTCGGGTCAAAATAGAGGACTTTTTGGAATTAAAGCCCTAACGAGATTAGGTCCAGTTGATATTACTAGCATTGCTTCATTAGAAAAAACGCAAAAAGAAACCCAGAAGTATAAGGGGTCCTCAGAGCTTAAAGCAACTCAAATTCCTGATTATGATTATAGAAAAAATTTATACTTCTTTGTTCACGAATGGTTTAGAAGTGGAGCAGAATTTCAAAGTGAAAGTGGATTTGGAGTCTCAATACCATCTTACTATCCTTTAGTTTCAGGTTTGCACCCTATTGGTAATGTAGTAATTAGAAATCTGGAATTATATAAAATTGATACATCAAATAATCCTCAAGCAGATCCTGGAACGGCTTATATAGATCCTCTTGATTTATCAGCTTATACGAACGACAACAAGGAGGGCTCATTCATCAAACTAGAAAGGGGTATTGATTACTCTGTTAATGAAGATTTAGGTTTTGTTCGAATGCAGTCTTCTCTCCAAAATGAAATTCTTGCCGCACACTTTGAAATAGTTGATAGAGAATCTGGGCAATTGATCGTTGAAATTGGATCGGGAATAAATGAATCAAGCTCTTCATTAGTTTTGAAAATGATTAAAGCTCAATCATCTCATCCGAACCACCCGACTTGGGATTTAATGTTTAAAAATGTTTATTCTTTGGGCTCTTTAAATATTGACCCTACCAATCTAAAAGTTACCATAGTAGACAATTTGATTACTCCAGTAAGCGACAGAACAGAAACTGGAAAGACATATCTCCATCTTTTTGGTTTAGATAATTTAAACTCTGCAGGAGAAATAGCTCCCGATGAAAATATAGATTACAATAATCCAAATATTATCAATTTACAAACTGGAGAAATTCATTTACCGTCTTTACTACCTTTTGTTTCTGATGACAAGCTTTCAGGTGGAAACTCGAATGAAGAATTGAAAGGTATTTTAAGAGATGGAGAAATGTATATTTCAACGAATCGATCCGATTTTACGGGGGATTCTCGCTTTACATTGAATGTAGAATATACCTCACCCAAGTCTGTTATAAACTTAGGATTTACTTTAGTTGAGGGCAGTGAAGAACTTTATTATAATGGGGAAAAATTGCAAAAAGGACGCGATTATCAAGTGGATTATTTTTCTGGGATGATTATGATTCTTAAAAATATTGACCCAGAAGGAGAGCTCGATATTTCTTATGATAAACATGAGCTAGTTACTTTTGATCGAAAACTGATGATTGGATCTAGAGCTCAAATTGATTTTAATGATGATTCATTTCTTGGGATGACAGCCCTTTATTACAATCAGGATATTGTTAATAAAAAAGTTGAAGTTGGCTATGAGCCAATTAATAACTTTATATGGGACCTAAACGGAAGATATCAACAAGATTTTGAAAAATTTTCCAAAAGCATTAACGATTTGCCTTTTGTGAATTCAGATAAGTTGTCTGGGTTTACGCTGGAGGGAGAATTTGCACAAGTTCTTCCCAACCCCAATTCAATTTCGAGCCCAGGAACTGGAGATAATAACGGGGTTGCATATATTGATGATTTTGAGGGATCTAAAAGAGTAACAAACCCTTCAATCTTAAGAAGATTTTGGCATATTTCATCTGCTCCTATTAATGCAGAAACTATGTATGAATTTAAACAGGAAAACCGAATGAGAATGTTCTGGTATAACCCCTATGCTCAAGTTCTTACAAATAGCATTTGGCCAAATGTTTCAACGTCTCAAAGAGCGCAAAACTTAACCACCGATGTATTAGTATTGAATGTTGAGCCAAAACTATCTCAACAAGAAGCACAAAGTGACTCTTTATGGGCAGGCATTATTTCTCCAATGTTTGTGGGAGACTATGATCAAACCAAAACAAAATTTTTTGAAATCTGGTTAAGAGGAGAGATGGGGAATTTAACTATCGATTTAGGAAAAATAAGTGAAGATTATGATGGTAACTCGAAACTAAACGACGAAGATGTTCCTGAGGCGGGTTTAGCATTGGGTAATGGTTTTCTAGAGGAAAATGAAGATACTGGATTAGATGGGTGTTTCGATGAATATGAAAATGGCTGGGGACAATGTTTAGATACAGACGGACCAACTTATTTAGAATATTTTGCTAGCGGGGAAACGATACTAATTAATGCATTTTCTGATACTGATGCCTCTGACCCCAATGGTGATAATTGGGATTATATTGAGGGGAGTAATGATTATTCAATGGTCAACGGAACAGAGGGGAATGGAACAGGAGTTAGGATCCAGGCAGGAGGAAAATATCCAGACTCTGAAGATTTGGATAATTCTGGCTTCTTAGATAGAACCAATTCATTTTATTCCAAAACTATTTCACTATCAGACTCAACTTATGTTGCAGGACGAACTGAATTTAATGGTCAAAAAACCGGCTGGAAATTAATTCGCATTCCAATCAGCCATTTTGAACATATTAACGATGTTTCATTAAGCGAAATTAAATATTTGAGATTGGCTATAAGTGGAATTACTGAAGCATCAAAATTAGAAGTTGCGAAAGTAGAACTGGTAGGTAACTCATGGGAAGAAGTTGGGACTTCATTAGTAGATTATAACAATTATACTCTTCAAGATAGTACTTTTGTAGTTACAGTAATAAACGACGAAGACAATCCAGACTACATACCACCTAAAGGAGTTTTTGGAGAGTATGATGAGATAAATCAAATTTTATCTAAAGAGCAATCATTGGTTTTAAAGTTTGACAATTTGCAACCTAACTATAAAGGGGCGGCCAAAAAAATTATTACTCTTGATCCAAAAAGAGGACAAAGCTATTTAATGTACGATTTAATGAAAATGTTTATTTATGGGAACAGTGAATTTTCAAGTATTGATGAATCTGATTTAGATTTTTTCATAGAGTTTGGAGCTGGAGATGAATATTATAAAGTGACTAAAAAAATCTATAAAGGCTGGGATCAAGATCTTGGAAGAAACGATTTAAATGTAGATTTAGATTGGATAACAAGATTGAAGAATGCAGAACAAGAAAGTATTCAGCTTATAAATCCAAATGATACCTTTACCGATTCTCTTAATTATAAAAGATATGAACTATTTGATTTAAATAATGAACTATTGCAAAAAATTGAAGTATATGGTCAGCCTGCTTTATCTAGAATTCAATATTTTGTTGTTGGTGTAGAGAATAATTCAAATAATCCTATTTCTGGAGAAATTTGGCTAGATGAACTTCGACTGAGCGGAGTAAAAAAAGACAAAGGAAATGCAATGAGAATTCGTAGCCAAATTAACCTATCTGATTTTAGTGAATCTAATTTTAGCTATACCAAAAAAGATGCAGATTTTCGTGTTTTACAAGAACGACTTGGGTCTAATAATTCAAATGAAAGCTTGATAGTATCTAATAATTTTCAGTTAGGAGGATTTTTCCCAAAAGAATGGGGTATTTCAATGCCACTTTCAACATCTTATTCTATGCAAAATAACAAACCAAAATATTTCCCCGGCTCTGATGTTAGAACAAATCAAAGTTCTGTTCCAGATTCTATTATGAAAAAAACTTCAACTATTAAAGTTTCTTCAGCAATATCCAAGAAGGTTAAATCTCAAAATCCAATAATGCGCTATACTATTGACAATATGAGCAGCACAATCAATTTATCAAGTCAAAAACGGTCTGATGAAATTATGGAACATGTCAATATTCATAAAATTAATGGAGATATTAAATATAACCTTCAATTTCCAAGCGATAACTATCTCAAAATATTTGGCTGGACAAAAAGTATACCAATCATAGGGGAGCAGATATCTGAAACAAAATTCTTTTATACTCCAACCAATTTTAATTCTTCTATGATATTTTCTAGAAATTTATCAAACAAAAAAACACGATCAGCAGATGATAATTTAGAGGATTTTAATTTAGGATTAACGAGAACTTTTGGGTTGAGTTACAAAATTTTTGATAATACTCAATTAAATTATACAAGAAATGTAAATAGTGATTTATCTGAATATCGCAATGAAGTTCTTCAAAAGATTAGCGTTGGATCAGTTGTACAAAATACAGAAGCGTTTAGTTCCTCTTTTTCCCCGGACTGGTTTGAGTGGATTTCTCCTACTTTTAATTATAATGCAAACTATTCCTGGAATAAACCCCTATCTTCTGTGGTAGATGGTGCAAACTTAGTTTTGACTAAATCTAATTCTATTAATTTTAATCTATCTCCCACGACCATTATGGAACAGTTTTATGAACCGCCATCAAAGTCAAAATCTTCATCACGATCACGAACTCGGATTAGAGAGATCGAAAGTGAAGAGAGTGATTCGGACAAAATGGAACCAGAGAAAGCAAAAAAGTATTGGATTAAAGATCGTCTCGTTGTAGAAAAAATTTATGAGGCTACAAAGAAAATCCAACCAATTATTGTTACCTTTAATACCAACACAAATCTAAGTGATAATGGAGTGCAAAGTTCCATTCCTGTCTTTTATAAGCTGGGTTTAAATGATAACCGAGATTTTGCTTATGCTCCCGAAGTTGGTTTTAATACTGGAGTTGACGATATTAAAAAAAGCTTATCTATTAGATCTGGAATTAAAATTAATAATTCGACATCTTTATCTTTTTCATTTAATGAAAATATCTCTTCAGTCTTGAATGGTTCAGGTGTTGATACTCGATCAATCACTAGAGACTATTTTTCATTTGGAACGAGACTTAACAAGGGCTTCCCATTCTCTAATTGGTCTTTAAGAATTGGAGGCATAGAAAAAATTAAAATTCTAAATCATTATTTTTCGAGTGTATCCTTAGAACATTCTTTTGCTGGAAAACAGGTTGCATCGTGGAAATTTTCAGATTCTAACACTAATTCGTTTAAGTTGTTTTCTATTTCATCTATCATTGATAACTATAATGAAAATTTATTGATTTCTAAAAAAGTTAGTTCTTTCAGTCCGCTTATGGGCCTAACAGCTTCTTTAAAAAATGGGGTTTCTTTTAACCTTAGAAATAACATTAGCTATACATTAGATGAAGTTCCCACCGGTCTTTCTTATGTTTCAGACAATAGTATCTTAGGTAGTATAACCTATAATTTTTCGAAAGGAATACGTTTTGCTTTACCGTTTACTGATAGAAATGTTTTTTTAAATAATAATTTTAACCTCACTCTTAATCTTGAATCTTCCAATAAAAACGAAGAAGGTTCTAAGGATAGGATTAACTTTGCTCAGCAGAATTTTAATAAGACAAATAAGGCTGTCCTAAGAGCCAGCTACGCAATAACAGAAAATGTTTCGGGAAGTCTTTTTTATGAGTATAGACAAAATGAAACTAGATTAACAGGTCGAAGAGTCGATAGAGATTTTGGAATTAATTTAAATGTTGTGATTCGAGAATAATGAAAAAATTATACTTAATAACTATATTAATTTTATTGGGATGTTCATCAAAAAGCATCAATGAATTAAACATATCTCACTCATTCGATGGCAATCGAGCTTACTCCTACATAATAGAGCAATGTGATTTAGGCCCGCGAAGTCCTGGCCTTGAAGGGCATCAAAAGTTTGAAAAGTACCTTTTAGGTTTTTTTGAGAAACTTAATATGGAGGTCCATACTCAAAATTTTAAATATTTTAATTTATTGCTTGATCAAGAAATGAATGGAAAAAACTTTTATGTTAGTTTAAATCCAGAAATTTCTCGTAGAATTTTACTGGGTGCACACTGGGATACTAGATCTTTCGCAGATGAAGAAATAGATGAAGCAAAAAGAAAACAACCTGTTCTTGGAGCTAATGATGGAGCTAGCGGTGTTGCGGTATTAATGGAAATTGCTAATATTTTATCCAATAGTTCAACAGTAGGAGTCGATTTGGTTTTTTTTGATGCTGAAGATGTTGGAATTAAAGGGGAATCCGAAACTTTCGCTGAAGGTTCCAAATATTTTTCAAAAAATATGCCTCTAAAAATAAAACCTGAAAAAGCAATTATTGTTGATATGGTAGGCGATAAAAGACTTAACTTGCCTATTGAAAGGTATTCGTTTCAAAAAAATAAAAAGTTTGTTTTGGATCTTTGGGAGCTTGCAGAAAGATTGGGATTAAAAGCATTTTCTAAAATGATTAAATATGAAATCTATGATGATCATATCCCGCTGAATGACTTAGCTCAAATCCCCGCAGTTGATATTATTGATTTTGATTATCCTAATGAGTTTTATAATTATTGGCACACCACAGAAGACACGCCTGATAAATGTTCTCCACAAAGCTTAGCACAGGTGGGAGTTTTGTTATTAAATTACATCCATGAAAATTAGAAAATTATTTTCAATATTTTTTTTCACTTTTATTGTTTTTTCTTGTTCCTCTGGGGGTGGTGGATCTCCTACTGATCCTTCAGATCCAGGCGATGGAAATGGAGAGGGAAATGAAGTTACATTCTCAAACGCAACAAATTTTGATGCCCCAAATCAGTTAGAAATTATTTCATGGAATATTCAAACTTTCCCGCAGAGTTCCAAAACTAATGATTACTTAAAAGTTTTATTAACCAAATGGAATGCTGATGTTTATTTTTTCCAAGAAATTCAAAATAAAAATCAGCTAATTGCCCTAGCAAATGAGTTATCAGAATATTCATTGGTACTTTCCTCTACAACACAAAATATGCATTTTGGTCTTTTATATAAGTCTACCAATTCTGATTGTGCTACCTGTGGTGTAATTACTTTTAACGGCAAAAATGAATTATGGTCAAATACTCCAAATTCAAATGATGGTGATATGGATTTTGCAAACAATGCCAACTATCAGTTTGCGAGTCGCCCTCCAATGGAAAATTTTTTAACATGGTCCAATGGATCAAAGACTTTTGATTTTTATTTAATTGGCACTCATTATAAATGTTGTGGAAATGATCAGTATGAAAATGAAAAAGATAATCCTGGTGCAGAAATTTTTAGAAGATATGCTGCAAGCTCGCTCTTAAAGGATTATTATGCAAATAATCGTCAGCAAGCTAATGTATTTATTGCTGGTGACTTTAATAATGTTGGGAACCAGTCAATTACCAATCCAGCGATTGCTCCACTTGCAGATCCTTCAATTAATGATGGATATTTTAAGTTAATAGATGAAGCAGTTTTTCAACAGCAACCTACAAAATATTCATGGCAGGGATGGAGAAATAGATATGATCCTGCACACCTAGACCATATTTTTATAAGCGAATCAATGTTTTCTTATGAAAATGCAGCGGGGGGTGTTGTTGATATGTTGACAGAAACCGGTTTAACCGGCAACGAAATTGATGATGTATTGTCAGATCATCAGCCTATATTTATAAGATTAATCCCTTAAAATATTAAAGGCCTGTTTCTTTAACAGTATTCTTGACAGCTTTAATTGTGTCCTCTAAAGCTTTTTTTTCTGAATCAGTTAATTCAAAATCAATGACTTTTTCCACTCCTCCAGATCCGATAACTGTAGGAACTCCAATAAAATATCCATCAATTCCAAACTCTCCATGGCAAAGAGAAGCACAGGGAATAACTCTTTTTTTATCTTTAATAAAGCTTTCAAGCATTTCTACAGAAGATTGAGCGGGAGCATAAAATGCAGAACCTTTACCAAAAAGCTTAACAATCTCTCCACCTCCAAAACGTGTTCTTTCTTCAATGGACTGTATTGTCTTTTGATCAAGGATAGATGTAAGAGGAACGCCTCCAATTGTAGCTAGTCTACTAACAGGTACCATAGTATCTCCATGTCCACCCAAAACCATACAATTTATGTCTTGTGAGGATAAACCTGTAGCTTCAGCGATAAAAGCTCTGAATCTTGTGCTATCTAATGCCCCAGCCATTCCAACCACCTTATTTTTTGCGAAACCCGAAACTTTATAAAAGGCATATACCATGGCATCAAGAGGATTAGATACAACTATAACAAAAGCATTGGGGGCATATTTCTTAACTTGTTTTGCGACATTAGATATGATATCGAGATTTTTCTTTAATAAATCTTCGCGGTTCATTCCGGGCTGCCTTGGAAAACCAGCGGTGATTACTATAGCATCAGAATCTTGAATATCAGAAAAATTAGAAGATGCGTTAATTTTGACATCGTATCCTTCTAATGGCAAAAGCTGTGATATATCCAGAGCTTTACCTTTGATAAAATTTTCAGATTCTGGAATGTCAATTATGGTTAAATCACCTAATTCTTTTTGAGCGGCAAGAAGAGCAATATTACCTCCAACTTGTCCACCACCAATCAGAGATATTTTAGGTCTGCGCATTATCAATTTTTTTCAACAACATTAACAAAGGTAGTAGTACCCTTCTTGGAAAACTTCACATATCCATGAGATTTAGCAAAAAGAGAATCATCATTTCCTCTACCAACATTTAAACCGGCGTGGTACTTTGTTCCACGTTGTTTAACGATAATGCTTCCCGCAAGAATAGATTGACCATCAGAAACTTTTACTCCCAATCTTTTTGAATTAGAATCTCTTCCATTTCTTGAACTTCCTTGACCTTTTTTATGAGCCATTGATTAGTTCTCCTTTTTTTTGGTTGTAGCCTTTGCAGAGCTAGTAGTTTTGGTTTTTTTTTCGGCAGTAGACTTTTTAACTGAGCTACCAATTGACTGGATTTCAATCATAGTTAAATCTTGGCGATGACCATTTTTGCGTTGGTAGCCTTTTCTTCTTTTTTTCTTTATAATTGTTACCTTGCTATCTCTTGAGTGATCGATGACCTTTGCTTTAACAACGAATGATTCAAGCTCCTTAGGATTAAAAATATTTTTGTCATTATCAGAAATTGCTAAAACTTGATCTAAATCAATAACTTTTCCATTTTCAATATCAATTTTAGAATCTATGAGAACTTTATCTCCCTTAGAAACTTTATACTGTTTTCCGTTAATTTGTAATATGGCTATCATAGCGGGTGAAGTTAATATCTAAATTAATCCCTATCAAGTACCTATTTCATTGGTTAAATCTACATCATCATTGATTTTTGTAAACTTAAATTCGTTTTTATTCAAAGAATAGTCTTCTATAATTTTTAAGTAGACAAAGTTCTGCCACATTAATTTAATAAAATCTCTCGTTTTCTCATTCTTTAAATATGCTGCTATTTCTGGATGAAGGTATAATTTTAATCTCAGGTCTTTTTTTTGCTGTTTATATTCTCTAAGCCAGTAATCAATACGAGTCAGAAGTGTATCTTTAGAGATTATTCTTCCCCATCCATTGCAACAGTCGCATGCTTCAGTAATGGAATCAATCATACTTAATCCAGTTCTTTCTCTGGTCATTTCCAGTACTCCAAATTCCGAAATTTCCGAAACAGCAACCTTCGCTCTATCGAACCTTAATTCTTTTTTCATTTGTTGATAAACTTTTTTTCTATTTTCTGATTCATTCATATCAATGAAATCAATCAAAATTAAACCCGACAAATGTCTCAACCTTAATTGGCTAGCTATTTCTTTCGCTGCCTCTAGATTGATTTTTAAAGAATTTTCTTCATGGCCCTTTTTTCCTACAAATTTTCCACTATTGACATCGACAACAACCATAGCTTCAGTTCGTTCAATTATTAAATAAGCCCCACTTTTTAACCAGACTTTTTTCTTCAAAAGTTTCATGATTGAGTTATGAATTCCAATACTTCTGAAAAGCGGCTCTCTTTTTCTATAGTGCTCAAGTGAGTTTTCAATATTAAGAGAATCATCTTTAATAATTTTTAAAACCTTCTTGTAGTCTTCGCGCGAGTCAGTAACAATTTTAGAAACATTGTCGTCGATTAAATCTCTTAGTACGCTTGAAGTTGTTTCAAGATCATTATAAGCCAACATTGGAGCACTTTTTTTATCTGATAATGCAATCAGTTCATTGTATTTTTTAACTAATGAAGTGTAATCATTAACAATTTGTTCTTCAGTTGTGCCCTCAGCTACAGTCCTTATAATCATCCCTAAACCCGGTTTTCTAATTTCAAGAGCAATTTTTTTTAATCTTCTTCTTTCGTATTTGTCTAGTAATTTTTTTGAAACCCCAACGTATTTCGATTTGGGGATTAATACTAGAAATCTACCAGCTAAAGATAAGTTGGTTGTGACTCGAGCTCCCTTATTATCGAATGGCTCCTTAATAACTTGAACAATTATTTCTTGTCCTGGTGATAATAGAACTTCAATTTGACTATCTTTCTTAGTGTTATCAGTGTCTAAATGTTCAGGATCGGATATTTCAGAAAAGGGGAGAAAGGCATTTACTTTTTGTCCAATATTTACAAATGCTGCTTGCATTCCAGGTATAACATTCTCAACTATACCCTTATAAATATTTCCGACAGTTCTTTCTTGTGTTTCTTTATCAACGTGGAGTTCGGCAAGATTGCCATTTTCTGTTACAGCAATCCTTGTTTCTCCTACGCCTTTACTTATATAAATTTCTTTATTCATGGTCGTAGTCCGTATCACCTATTATCAATAGGCAGGAATATGAGAAAAAGAAAAATTGTTTATAAATCTTATAAAAATAAAAAAATAATGGGTTAAATTAATTTCTCAATATTCGTTTGTAATTTAAAAACTAAAGTTAAAAAAACCATATAAATATGATTTATCTATCAGAGCTAATTGCAGCAAAAGTCGCAGCAAGAAATGCAGGAAAAATTCTTTTAAAATATTATCAAGACGATAAAAAAAATATTCAAGAAAAAAGCAAAGATAATCCGGTAACAGATGCAGATTTTGAAGCGGACCAATATATTAAAAATTTTCTAATGGGTGAGTTTCCTTTCGATGGGTGGTTGTCAGAAGAAACTGTTGATGATTTAATTCGATTAGAAAAAAAAAGAGTTTGGGTAGTTGATCCCCTGGATGGAACTAAAGAATTTATTGAACAAATACCTCATTTTTGTGTGAGTATCGCTCTAGTCGATAATCATATACCAGTCGTTGGTGTAATTTTTAATCCTGTAACTGATGAACTTTTCTATGCTTCAAAAAACTCAGGCGCATTTAAAAATCAAAGTAGAATATTTTGTTCTAAAGAAGTTGATTTGAAAAAATCCAATATTGCTGTTTCACGTTCTGAGTTTCAAAAAGGTGAGTGGAGCACTTATCAAAACAATTTTTCAGAAATTTCTCCGATAGGAAGTATTGCTTACAAAATTGCAAAAGTTTCGGACCAATCCGTAGATTGTTTTGCGACCATTGCCCCTAAAAATGAATGGGACATTTGTGCTGCAGACTGTATTATTCATGAAGCAGGTGGTATTATGAAGACTATCGATAGCAGGACTATCCTTTACAATCAGAAGAAAACGCTTGTGACAGACCCTATTATAGCTTCAAATTCTAATATGTTTAACGCTATATCAGATTTACTTTATTAATATGAAAAAAATCGTTTTAGATAAGGGATTTATTGAGCTTGTTGATAAGCTAGGTGATGATTTGACGCCTGTAAATGCTGCCCGTGTTTCTTTCGATGGTTTTAGCGAATCTTTTTCAGATAAAGATAAAAAGCTTTCAAAATATCTTATTAAACATAAACATTTTAGTCCTTTTAGGCACCAACATTGTATGTTTATAATTAAGGCACCAGAGTTTGTTATGAGGCAGTGGTATAAGCATGTTGTCGGAATTGAGACAACTTCTACTCATCCAACAAAAGATCACGCATGGAATGAG
>sequence06
CTTGATTGAGACCTATGGTTGTCAAATGAATGTTGCAGATTCTGAACTTGTTGAAGGCATACTAAATAAAATTGGCATGCAAAAAACGACTGTAATTGATGATGCAGATGCAATCTTTCTTAATACTTGTGCAATTAGAGAAAATGCTGAATCTAAAATTCATTCAAGGCTTGGAAATTTATATAAACTCAAATTAAATAAACCCGAGTTAATAATAGGAGTTCTTGGTTGTATGGCGCAAAATCTTAAAGATGATTTATTAAAAAATAAACCTTATGTCGACATTATTTTGGGACCTGATTCTTATAGGAATATTCCAATGTTGATGAATAGACATAACTTAGATAAGAAAAGCATTGTAGATACAAAACTTTCACGTTTTGAAGTTTATGAAAATATGTTTCCAAAAAGAGGAGCTACTTTTAATGCATGGGTTTCAATCATGAGAGGATGTGATAAGTTCTGTACCTTTTGCATTGTTCCTTTTACTCGTGGAAGAGAAAGAAGTAGAAGCATTGATAGTATTGCGCAAGAAATTCAAAAAGCTGTTTCTGATGGATTTGCAGAAATAACCTTACTTGGCCAGAATGTCAATTCCTATAATTTTGAAGAAAAAGATTTTGCAGATTTATTATTAGAAGTCTCAAATATTGATGGGGTAAAAAGAATTAGGTATACATCCCCACATCCACAAGATATTAATGATAAACTTTTAGAGGTCATGGCTTCTAGAGAAAATATATGTAATTATATCCATTTTCCTCTTCAGTCTGGTTCCAATAAAATCCTAGAAAAAATGAATAGAACCTATAGTAAAGAGCACTTTATTTATATGGTTGAAAAAATTAGGGAGATTATTCCAGATTGTGGTCTGTCTACAGATATTATAGTTGGATTTCCTGGAGAAACTAATGATGATTTTAATGACACTCTTCAAGTTATGAAGGAAGTAAAATTTAATTCAGCTTTTACATTTAAATATTCTCCGAGGCCTTATACAAAAGCTGCACAATTTTCTGATCAAATTGATGAGAACATAAAAAAAGAACGTTTAGATGAGTTGATTAAACTACAAAAGAAACATACTCTCGAACATAATCTTGCTAAAGTCGGTACGTTTCAAAAAATTCTTATTGAAAAAGAAAGCAAAAAATCAATACATCATTGGGCTGGAAGAACAGATTCAAATGAATGGGTAATAGTAGATAAAAACAATAATAATATTAAAGATATTATTCCTGTGGAAATTACTAATGCAACTGGTGTAATTTTACATGGTAAACAAATCGAAAGTGTATAGATGATTAGAATATTAAAAATTTTATTTTTTTTAGCAGCAATTACAGCTGTATTTCTTATCTTTGATAGAAATAGTTTTGAACTAAGTTTATTTTTTCTAAATGAAACTCCTTTAATTTTACCTGCTTATCAATTATATATTATTTTAATAATGATTGGTATTATCATTGGCTATTTAGTTTCTCTTAAGTCAGTCTTTAGCTATAGATCAGAGATCAAAAAATTAATCAAAAATAATAAGGATTTATCTGATGAATTAGATAGCCTAAGAAATGTTGCCATAAATGATGACATTAGCTTTGATCAAGAAGATTAATGCATTATTATTTTTATTTAATACCCATTATTATTTTAATAATTGTATTTTTAATTTTTAATAGAACTTCAAAAAAACCTTCAGACCATCAATTGTTTAGCAATGCATTAAATGCATTGGTCAATAACGAAAAAAAAAGAGCTTATGAAATTCTTAAACAAATAATTTCAAAAGATTCATCTCATCAAGAAGCTTATTTACTGCTTGGAAATTTGTATAGAGAAAAAAATATTGAGAAAGCTATTCGGATTCATCAAAGTCTTATAATCAGACCAAATTTATCTAAGGAATTTAAATTTCAAGTTCATAAGTCTTTAGCATTAGATTATTTAGATTATGATAATATTGAAAAAGCAAAAAAAGAATTAAGTAATTGCCTTTCAATTAGACCAAGGGAATATTGGGTTTTAAATCACTTGAAAAATCTTTCTGTGGAACAAAAGAATTGGGGAGATGCTTTAATATATGAAGAAAAGATTTTAAAGTTTTTTCCGGAGAATAAAGAAACCGATGCTTCAATGTTAAATTATTTTTTAGCTAAAGATTTTCAAAAAAAAGACAATTATAAAAAGTACGTTTATCACCTCAAAAAAAGCATTTCCTATGCTAATGTTTACCCAAAAGCATATAGAGATTTATGTTTACTTCAAGACAATTCACTAGATAAAATTATAGAATACTTTGTGAATTATGTTACTATTCAAAAGAATGATTTTGTGGATGACTGTAAATTGATCGAACAGAAATTATTTGATATGAACGCTTATCACCAAATTGAAAATCTTTACAGACAAATTCTTGATTCGAATTTTAATTCTTTTGCTTTTAATCGTTTAACAGATATTCTTCTTGAAAAAAATGAAAAAGACAAAGCAAGCGAGTTAATTCAATCTGTTATCCACGAAATGCCAAATCCTATCATTAGATTGAATCAGATTAAACTGAAGGTTAATGATTTAGAAATAAGGAAGTCGTTATCAATCTTATGTAATGAAATGGTAATTGATGAAAAATAAGTATTTAGTTTTTACATTTTTTTTGTCGTTTATTTTTTCTCAGAATTCAGAAAAACTACTTTATGAAAAAGCCTTAACCACTATTGAAGGAGAAATAGCCCTTTCATTGTATGAACAGATTCTTAAATCAAATTCAATGACTGACTATTATTGGCTATCACTTAGAAAAAAAGCTGAAATCAATTATGCTAAAGGTTTATATATCTCTTCTTCAAATCTTTGGAAGGAATATAATTTGAACGCTCCTTCAAGCCTTGTAGATGACGAATCAAAAAATTTTCTTTTTAAGTCTTTAACTGTGATTGGAGAAGATGACTCATTAAAATACTATAAAAAATTATTTTCTAATCAAGCCTCAAAAAGTCAAAAAAGCCAAAGTCATGTTTCAGATAAAAAATCACTCTGGTATATTCAATTTGGTGTTTTTTCATCAAGAGAGAGCGCTGAAATAATGCTAGATAGTCTTTCATCGGATGGAATTAAAAATGTTTTAATTGTTCAACTATTCGATAGAGGAAAAATGAAATATTATGTAAGAACTAAAAGTTTTACATCTATTTCAAAAGCGCAAAGCTTTGCAAAAAGAAATTTTCCGAAATCAAAAGACTACGTAATCAAAAGCAATTAATCTATTCTTTTCCTTTCTTGTAAAGCCTATAAGAAATTAAAGAAAGTATAATTAGAGCACTTAACTCATATAGTGGAGTAGGTAAGCTATAAGATGGCCAAAAATTCTTATCTATAAAAAGAGGAATTGCAATAAATATTGCCATTAATGCCTCTCCTGTAATCAGTCCGGAAGCAATTAAAATACCATTATTATTTCCAGATTCTGTTGCTTTTTTTGAAGCAAAGTAATTAATGAAACCTCCAATAAAAATTGGTAGTGTTAGTTCTACAGGTAAATAAATTCCAATTGCAACTGCAAGGATAGGAATTCTAAATTCTGATCCTTTTCTTAGTTGTATTTGGTCTAAAATAATAATCAATATACCTATAATTGCACCAAAGAAAATCATTCCCCATTCAAGGTTTCCTGAGAACACCCCTTTTGCTACGTTCATCATTAGAACTGCTTGAGGAGCAGGTAATTCAGAGCTTCCTATTCCATATGCTTCATTTAAGAGAGTTAGAACAAACCCAAGTGTTAAAGCAGCACTAACTACACCAACTAATTGCATTAGCTGTTGTTTCCAGGGTGTAGCGCCCACAATATAACCGGTTTTTAAGTCTTGTAAATTATCTCCACCAATAGCAGCTGCACAGCAAACAACTGATCCAATAAGAATTGCAGCTGCTGCACCCTCAGATTCAGTAACATTAAATAAACCGATTATTAATAGAGAGCTAAAAAGAATTGTTGCAATAGTTACTCCTGATATTGGATTATTTGAAGAACCAACTACTCCAGCCATATATGCTGCCACTGCTGAAAACAGAAATCCAAAAATTCCCATAATTATTGAAAGAAATATTGCAGAAACCCAAGAATTTAAAATCCCGAAATAAGTAAATATGATTGGAATTAACATTAAAAGAATTGCTATTGAAACATAATTAATTGGAAGATCTCTTTCTTCCAAAGGTAGTTCAGAGTCTGTATTATTGAGTGATTTTAGACTTAGTTGAATGCTCTCAACAAGGGGTTTAAATAATTGAAGAATTGACCAAATACCTCCAATGACCATTGCTCCTACTCCAAGATAACGGATTTTAGTATTCCAAATAATATTTGCAGCTTCAAAATATGAATTACCTTCATATCCAAATAGATAGGAATAAATTGGAATAGCTATACACCATGAAATAAATCCTCCAGAAAAAATTAGTATCCCAATATTTCTACCAACAATATATCCTACGCTAATTAGGGATGGTGACATACTTGCACCCATTCCAAAGATTGCACCTCTTATCGAGATCGCACCTCCTAATGCGCTAGTCCATACGTTTAACGCTAGTTCTCCAAATTTTACGACTGCTCCTGTAAGGGCAGACCAGCCAATAAGCTTCAAGCTTTTTGATGATTGAGTTGATTTAGACTCGTGGCCAGTTTTAAGCACATTGGCTGTTGCGATTCCTTCAGGAAATTTCAATTGAGCATTTAGTATCAAAGCTCTCCTCAAAGGGACAGTAAAAAGTGCTCCTAAAACTCCGCCAATTAATGCAATCTTTGTTACTTCAACATAACTTATCGAATCCCAATATCCAATTAGCATCAGTGCTGGAATAGTGAAGATTACTCCAGCTGCCAAAGATTCACCAGCTGATGCAGCAGTCTGGACTATGTTATTTTCAAGAATATTAGAATTTTTAAAAAGCCGTAAAATTCCCATAGACATGATTGCAGCAGGAATTGAAGCAGAAATAGTCATACCAGCATAGAGCCCTAAATAGGCCATTGCTGAAGATAAAATAATGGAAAGCAAAATGCTTAGAACGATAGATTTGATTGTTATTTCTGATTTCATTGTTTTTTCAAATTACTTAAAATAATTTATTATCAAATTTTAGATAATGATAAAAAAAATATTTACTCAACTTATAGTTTTAATTGCGTTAACAACGTTCAATTTAAGCTTGACGCATAATCATGTAGATTTCACTTCAGATTCTTTTCAAGAAATATCTAAAGTAGAAAAATGTGACATTTGCAAATTGAAGTTTTCTAATTTTAATGAAAATTCTATTACAAAATCATTATCCAATCTAAAAGATTTTACACTAAATCATTTTTTCTCAAATGATTTTTTAATCCCGAAACTTGTCATTCTAAATCTAGATAATAAGTCTCCGCCTCCTTTTTTATCATAAATATATCTATTTATTATAAAAAATTTTTCTAAGGAGAAAACATGAAAAACATATTATTTTTACTTTTATTTTTAACCAATATTTTTGCTGGAACAACTATTGTAGGAAAAATAGTTGATGATAGTGATAATTCACCAATTCCAGATGCGAATATTGAAATTTTTATTCAAGACAGTGATCAATATTTTGGAAGATCTTCAGATTTTAATGGAAAATTTACTTTTAATGATTTGCCTGGTAAAAAAGCTCTAATCAAGGTAACCGTTATTGGATATGAAGAAGCTTCAATTGAAGTTTTATTAAAAAATGGATTTGTTCAACCTATTGATTTTAGACTGAAAAAACAGTCGATATCTTTTGAAGAAGTTCAAGTTTATTCGTCTTTTAGAAAAATAAATGAAGGCGATTTAACTTCATCAGCCAGAATATTTAATGAAGAGTTGGAAATAAAAAAAGGTCAACATTTTGGTGATTTGATTCAAAATGTTCCTAATCTTAATTATGCAGGTGGTACTTCAAGGCCTAAATATTTTCAGATTCGAGGAGAAGGTTCAACAAGCAGGTATGCCGATCAAGGCCCACCAAGCACCTATGTAGGTTTGGTTTTAGATGGGATGGATCTATCTGAACTAGGAATAATCACTCCTTTGTTTGACATGCAACAAATTGAAGTGTTGATGGGTGTTCAAACAAGCCTTTTTGGTGCAAATGCATCTTCTGGATTGATTAATTTTAAAACAAATAATCCTTCTGAGATCAGAGAAGGATATTTTATGACTCAGTATGGTTCATATAATACTCTTATGAATGGATTTGTCTATAACACCCCATTAAAAAATGATTGGAGAATCAGATTTGTAGGTTATTCAAATCGTTCAGATGGGTTTAAAAATAATTCATTTTTAAATAGTAAAACTACTGCAAAAAAAGATGAATCATCTTTTAGAACCAAAATTATGAAGTCAAAAAATAATCTTTCTCAAAAATATACTTTTATTATTTCTGACTTTGATAATGGTTATGATAATTGGTCTCCAGATAATAATATATCGAATATTACTTACTCTGATAATCCAGGAAAAGATAGTCAAAAATCGAGCATAATTATTGCTGACTACTTATGGAATGTAGATGGATATATTATAGATTTAAACTTAGGAGCTTCTTCAAATTCAACACTCCATAGCTATGATTCAGATTGGGGTAATATCAATTTCTGGTCAGAGATTCCTTATAATTTTAACCCAGTTATTGAGGGGTATAATTATGATTTCTTTGATTCCATCAATAGAGAAATTGATACAAAATCGGCTGACTTAAGATGGAAATCTGATCATTTATTGAAAAATAATAAAGTAGATTTTGTATTTGGTTTATTTAGCTCGATGTATAATGAAACTAATATTGCAGATGGTTACATTTTTGGTGGTTCAGCAACTAATTTATCATCATCCTATAAAATATTAACCCAATCGATTTATGGAGATGTCATTTATAACATTAATGACGATATGTCATTATCTCTCGCCTTGAGATCAGAGCAAAGAGATATAGATTATATTGACAATGATCAGCCATTATCGAACTTTAAAATTAATGGGAAAAATAACTTATCATATAAATTATCTCTCGAAAGTCATCCGGCTAATAATTTCCATTGGTTTACATATTTTGCTGAAGGCTATCATCCTGCTGGGATTAATCAAAATCCTTATTTAGACGAGGATGAAAAAGTTTATGATAAAGAGACATATAGAGATATTACTGCAGGAATAAGATGGATCAATGATACCTGGAAACTTTCAACATCAATCTTTCATCTTTCGCACAAAAATCATATTTATGAGACTTCAGAACAATTAGATCCTTTGAATCCAAATGCATTTGCTTTTTTTAAAACTAATGCGGATTCAGGATATGAATATGGACTTGAGTCTACTGGTGAATTAAAGATAAGTGAAAGATTTTCTATGAAATCTTCTTTAGGACTCATGAGTTCTGAAATAGAATTAAGACATCATGAAGAAGAACATGAAGATCATAATGAACATGAAGAAGATCAGCATGGCGAACACGGTAAAAAAGCTCATGCACCAAATTGGAATTATAGCATTTCTTTTAAATTTAGTCCAAACCAAAAAAACGCTCTAGTAGTAGAGGTTTCTGGAAAGGACTCATTTATATTTGATTCCAACCACGATGAGTATCAGTCAGAACCTTATCATATTCTAAATTCATACTATTCTCGTAAAATAGATAAGATTGAAATTGGATTGTATGCAAAAAATATTCTCAATGAAAGCTTTGCAGAAAGAGGATTTATTTTTGGTTTAGAGCCTCCATTTTATGAGGAAAAACTCTACACCTCTTACGGTCCACCCAGAGAACTTGGTATGTCATTAACATATAGTTTCTAAAATCTTATTTTCATAACTTAACTGGCTATTATGCCAGTTAAGTTATGAGTTCAAGTAAACACAAAAAAAGATTATTTGTTATTGATGGGTATGCAAGTCTCTATAGAGCTCATTATGCACTAATAAGAAATCCTCTTACTAATTCAAGAGGTTTTCCAACCGGAGCTATTTTTGGATTTGCCAATCAATTGTTTCAATTAATTGAAGATGAAAAACCTGATTATTTAGTAGCAGCTTTTGATTCTAAAGGAAAAAATTTCCGACATGAACTTTATACAGAATACAAAGCAAATCGATCAGAAATGCCAGAGGAAATTCAATTGCAATTGCCTTTTTTATGGAAGCTTCTTGAATCGATGAATATTCCTGTAATTAGAATAGATGGTATTGAAGCTGATGATATTATTGGTTCTATTTCAAAGCTTTGTAAAAATAATATTCAATGTAATATTGTTAGCGGAGATAAAGACTTTATGCAACTTATTGATGACTCAACTTTATTATATGCTCCTCAAGCAAGAAAGCGTGAGAAAGAAATTTTTACTCCAGAAAAGGTAAAAGAAAAATGGGGAGTTGAACCCAAAAACATCATTGATTTGTTAGCACTTATGGGCGATAGCTCTGACAATGTTCCTGGTGTAGCAGGTATAGGTCCAAAAACAGCTCAAAGATTAATAAACAGTTATGGTTCTGTTGAAGATATATACAACAATATTGACAAGATTAAAAATGAAAAATTAAAATTGAAATTATCTGAAAATAAAGACAATGCATTTCTGAGCAAAAAATTAGTCACTATTCTTCAGGACGTACAGTTAGATTTAAGTATAGATGATTTTATTGTTCAAAATTTTAATAACAATCAACTAGAAGATTTGTTTAGTGAGCTTGAATTCTCTGGATTACTAAAAAAAATTAGCAATCAACCTGAAGAAGAGATATCTATTCAATCAAGAAAAAAATCTTATCAAACAATCACTTCAATAGATGATTTAGATAAATTTCTTAAATCTGTCCAAGAAAATAAATGGTTATCGGTTGATTTAGAAACGACTTCTGTAAATCCTATGAAAGCTGAAATTGTTGGATTTAGTTTTTCAATTAAAAAAAATACTGGAGTATATATCCCTGTAACATTTAAGGATAAAATGAAGAATCTTTTTGGAGAAGATGATTTGCAAGTATTGCTCAAAAGCCTAAAAGGAATTCTTGAAAATAAGCTTATTCCTAAAACTGGACAAAATATCAAATACGATGCATTAATTCTAAAGAGACATGGCATTGAATTGCAGGGAATTGAGTTTGATACGATGATAGCAGCTCATCTTTTGAACCCTAATGCGAGATCCTATAAATTAGATAATCTTTCTTTAGCTTTTTTGAATTATAAAATGGTACCAATCACTGATCTGATTGGCTCTGGAAAAAATCAGATAAAAATGAATGAAGTAAGCTTAGACGATATTTCATTTTATGCTGCTGAAGATGCAGATGTAGTAATTGAACTAACTGATATTTTTTATCAACAGTTAAAAGACTTAAAATTGTTTAATTATTTTAAAAATATTGAGATTGATTTACTTCCTGTATTAATTGAAATGCAATACAATGGTATTTATGTTGATGCAAAATTCTTAGATGAAAGGTCAAATGAAATTGGAAAAAGAATTGATCAATTAGAGTCGGAAATAAAACAACAAGCTGGAAAAGATTTCAATGTCAATTCTTCTCAACAGTTAGCCGAGGTGTTATTTGATCAATTAGGTCTTCCTTTGATTCAAAAGCGCTCAACAGCAGAAAATGTTTTAAATATTTTAAAGGATAAGCATGATTTACCTCAATTAATATTAGAGTATCGAAAATTATTTAAACTCAAAAATACTTATTTAGATCCTTTGCCAAAAAATATCAATTCAAATTCTGGAAGAATACACTCATCTTTTAATCAAACAATGACTGCTACAGGAAGACTTTCCTCTAGTAGTCCTAATTTTCAAAATATCCCGATACGGTCAGAAGATGGAAAGGATGTGAGAAAAGCGATATGTAGTGATTCGAAAGATTTCGTTATTTTTTCTGCTGACTATTCACAAATTGAATTAAGAGTCATGGCCCATTTGAGTCAAGATCAAGCCTTAATAGAAGCGATGAAGAATGGAGAGGATATTCATACATTTACTGCCCGAAATATTTATAGCCTTGAAGATGATCAAGAAGTTTTACCTGAAATGCGTAGAGTAGCCAAAATTGTTAACTTTGGAATAATGTATGGAGCGGGACCATACCGTTTAAGTCAAGAGCTAGATGTCACTTTTTTAGAGGCAAAAAATATTCGAGATAAATATTTTGAAAAATTTTCAGGAATTGAAAAATATATTGAAGAGAATAAAAAACAATTAAAAGAACAAAAATTTGTTGAAACATTACTTGGCAGAAGAAGAGCTGTTTGGGATTCTGATTCTCAGAACCAAATTAGAAGAGATGCGGCAGAACGAATGGCAATTAATATGCCGATTCAAGGTACTGCAGCAGAGTTAATTAAAATTGCAATGATAAAAATTTATCGAGATTTAAAAAATAAAAATTTGAAATCAAAAATGATTCTTCAAATTCATGATGAGTTATTAATTGAAGTCCATAAAGATGAATTAGATTATATTTCATCTATGGTGATTGAAAAAATGGAAACTGCACTAAAACTTGATGTACCGATAAAAATAGATTATGGAACTGGAAAATCTTGGTTCGAGGCTCATTGATGAAATATTTTGGTCCTAAATTTTTAATAAACCTTAATCAGTTATCATCAAATTATGATTTAATTAAATCTAGAATTGATAATTGTGATATAATGGCTACGGTAAAAGCTAATGCTTATGGACATGGGGCTATTCAAATAGCAAAAACTCTAGAAAAAAAGAATGTGAGGTATTTAGCTGTCTTTACTTTGGATGAAGCAATTGAACTGAGAAATGCAGGTATTAAATCAAATATTTTTATTTATTCTAGACTAACTATTGAGTCATTAAAAATCGCAAGTAAATTAAATTTGACTTTAAATATTTCATCCTTTGATGATTTAAATTTTCTGAAGAATAACGATTCTGAAAATGTAAAAGTTCATTTAAAATTTGATACAGGAATGACAAGATTAGGAGTTGATGCTGGTAGAGCAAAGGAATTCCTTTCTGAAATAAGTAAAGTTAGAAATATAAATATTGAGGGTATTTATTCTCATTTTTCTACTGCTGATGAAGGTGATTTAAGCTATGCTAACAAGCAATTGAACTTATTTAATCAAGTAATTGTTATCGCTAAATCGTTAAATATTATTCCGACATTTATACATTGCAGTAATAGCGGAGCCATTTTGAATCTTCCTGCTTCAAGATTTAACCTCGTAAGGGTAGGAATGCTTTTATATGGATCATATCCATCTGATGAAGTACCTAAAGATTTGAACATCAAACCTGTAATGAGTTTCACAGCACCTGTCGTTGAAATTAGAAATGTTCTAAAAGGAACGCAAATAAGCTATGGAGGAGTCTACGCGACTACTAAAGATACTCAGATAGCAGTTGTTCAAGCTGGATTTGCTGATGGAGTTCCTAGACCATGGTTCGAAAAGGGGTATGTTTTATTTAAGAATCAAAAACTTAAAATAACTGGAAGAATTTGCATGGATCAACTTATGATAGATGTTGGTGAAAAGAGTATTCAATATGGAGATGAAGTATTGATTTTTGGAATCTCCGAAGATCATGGAGAAATAAATCTAAATGAAATTTCTGATAGTATAAATTCTACACCTTATGTGCTTATGACAGCTGTTGGTCAGAGACCTAAAAGAATTTATTATTAGTTTTTTTATGAGGAGCAAACTAATTAACCAAGGGTAAGAGAAAGGAATTAAGAGGTAATTTATTGTATTAATTTGCTCCTCAATCATCAAATGATTCTTTTAAAAAAAAGTTCCCAATTTAAAATATTTCTTTATAGTTTATGGCAGATCGCGGGATGGAGCAGCTTGGTAGCTCGTCGGGCTCATAACCCGGAGGTCGCAGGTTCAAATCCTGCTCCCGCTACTAACTTTCAAGGAAAATCCATGCATCCAATTAAATTCATTCTAATAATTTTAATTTCATTTATGACTTTCAATTGCAATAATCAAGATCAAGCTTTGAAACAGAAAGCTGTTAGCTTATCTCAAAAATATATAATTACTGATGGGCATATAGATGTACCATGGAGAATATACAAGAGCGGATATGAAGACTTGTCTAAAAGAACTCCTTCTGGTGAATTTGACTATGTTCGATCAAAAGAAGGTGGGCTAGATGCTCCCTTTATGTCAATTTATGTCCCATCTTCCTATCAAGAAACAGGTGGAGCCAAAGAAATGGCAATTGAGTTAATTGATTCTGTGAAAAGAATTGCAAATGATCATCCTGATAAATTTGAAGTTGCTTATAGTACATCTGATGTAGAAAGAATTTTTTCAGAGGGAAAAATTGCCCTTCCGATGGGAATGGAAAATGGTGCACCAATTGAAGATGATTTAAAAAATATTGAATTTTTTTACAATCAAGGTATTCGCTACATCACTCTTACTCACGCTAAAGATAATGCAATATGTGATTCCTCATATGACACTACTGGAACACATCAAGGACTAAGTGATTTTGGTAAAGAAGTTGTACGCGAAATGAATAGAGTTGGTATTATGGTGGACATTTCTCATGTATCTGACAAGGCATTCTATCAAGTAATGGAAGTCACTCAAGTTCCAGCCATTGCTTCTCATTCATCATGTAGACATTTTACACCTGATTTCGAGAGGAACATGAATGATGATATGATTAAAAGGCTTGCTCAAAACGGAGGAGTTATACAAATCAATTTTGGTTCAACTTTTGTAACGAAAGATTCTCAAGATAAAAGAAATTATAATTCAGAATTAGTTGCTCAATTCGCTAAGGAAAATGATCTTAATGAAGGTGATGAAGAGTTAGTTGCTTACACGAAGAAAATAGCTGAGGAAAATCCTATTTTTTGTGATGTTACTGATGTAGCAGATCATTTTGACCATGTTGTTAAGTTGGTTGGTATTGATCATGTAGCTTTTGGTTCTGATTATGATGGAGTAGGTGATTCATTACCATATGGGCTTAAAGACGTTTCTTCTTATCCAAATCTGATTTATCATCTTCTTAAAAGAGGTTATTCTGAAGAAGATATTGAAAAAATCTGCTACAAGAATGTTTGGCGTGTTTGGAATGCAACGCAAGAGTTTGCTAAAAATAATCAGTAACTAAGATATTAATTGTCTTAATCTTTCAAAAACTACAGCGCTTACTGCTGAAGAAACATTCAATGAATTCATTTTATTTGACATTGGAATAGTGGCTAAGAAATCTGAGTTTTTTAAAACTAATTGACTCACTCCATTTCCTTCGCCACCAAAAATAAGCACCACTCTTCCTTTAAGATCTATTTCATACCAGTTTTTAGATTTGATATTATTTTCAAAACTTGTAACCCAGAAATCTTCACCCTTAAAAAATTCAATACATTGATTAATGTTGCGAACGCAAAATAGAGGAATTTTTGAAAAACCACCTTGACTAACCTGTGCAACCGCACTTGTCATTGAAACGCTATTGTGTTCAGTGATAATAACGCCATCGATGTTTGCTGAAGCACAAATTCTAAGAATTTGACCTAAATTGTGAGGGTCTTGTACTTGATCAAGGATAACATAACACTCATCGTTTTTCTTTCCTTTAGGTAAATCATTAAAAACTTCTACTGTGCATTCTACCAGAACTCCTTGAGATCGATTTGAATCAATCTTTTTTGAAAAGTCACTACTATTCATCAGTTCATAATTCAATTTATTTTTTGTTATTAATTCCGAGATAGTTTTTTGATTTGCTGCAGGCGAATCTTTTTCAATATAGATTTTATCAATTTTTATGATATTTGATTGCATGGCGTCAATTGACCCATTAAATCCGTAAATTGAAATCTTATGTTTAGTTGAATTGTTCATTATAAATTAAATTTAATAATAAAATTATGATAAAAATTAAAGATTCGGATTTAGAATTTAAATTTGTTAAATCTCGAGGTCCAGGAGGGCAAAATGTTAACAAAGTTTCCACAGCAGTTCAATTAAAGTTTAAAATTGATACTTCAAACCTCTTAGAAAAAGATGTTATACTTTTCAAAACAAATTACCCGAATAAAATATCAAAATCAGGATATATAATTATTTATGCTCAAAATCATAGAACTCAAAATCTCAACAAAAAAGAGGCTATTAATAAACTCCATAAGTTGTTTTCTGATATTAATATTCCAGTCAAAAGGATTTTAACAAAGCCTTCAAAAAGTTCAGTTGAAAAGAGACTTCAGACAAAGAAAAGAAAATCTTTACTAAAGAAAACCAGAAGAAAGGTTATAAATGAGGCTTAAATTATTAATACTACTTATTATTTGCTTTCTTCAATCTCAAGAAATAGAGAAAAACGAAATTATCTTGAAAAACTTTTACCAAAATGATTTTTCTGATTTGGAACTAATCTTTATTGCAAGCATTAATAAAAATATTAATTTTGAATCTGATAATTCTATTATGTTAAGAAATAATTTAAAGCTTTCAGCCCCAACTTATGACCGTTTTAATAGACTGAATAATCAGGGTATGTATTTACCATATAAAAATAATAGCTCGATATATTTGGATTTTAACATTGAAGGATTCATGCAGGCGAGCAGATATATTTTAGAAAATAATTCAGATAATACTACTTCATTTTTTAAAGATGATTATGAGAAATTTACATACTTTAATACTCGCAAAGGTTATATAGATGCTAGGAATTATTTTAGGGACCCTTGGAACCAAAAGTCTTTTCAGGATTATATAAACCACATGTATGTTCCTCCATTTATTAAACACCAAGAAATCAATACAATCTATGATTCTAAAAGATCTAATTAGTTTTTATATCGAAGAAAGAAACTTAAATAATTTATTTCTCGAAGTAATTGATCGTCCAGTTTTAGGGATTGAAACAAATTCTCAAAAGATTAAAAATGGGTATATTTTTATCGCAATTAAAGGAGATAAAATTGATGGAAACAATTTCATCAATGATGCAATTGACAACGGAGCAATTTGTATTTTTTCGGATTCTGCTAAAAAAGAATATTTTATCGATTCAATTCCAATTTTTCCAGTTTCTGAACCAAGAGAATTTGTTGGAAAAATATGTTCAAGATTTTTTGGTTATCCTCAAAAAAATATTAAAATAATTGGAATAACAGGAACAAATGGTAAAACTTCAACGATTTCTATTTTAAAAAATATTTTCGAAGCATCCGGTAAAAAGACACTTCAGGTTGGAACTTTAGGTTTGGTTCCTAAAATTCTTGATGATTACAACGGATTAACTACTCCTGACACAGTTGAAGCTTACAAAATATTGAACAAAGCCGTTGAGAATGCGTATGAATACGTATTATTTGAAGTCTCATCTCATGCATTAGTTCAAAATAGACTAAGCAATATTAAATTTAGAATTGCTTCTTTTACTAATATTTCAAGAGATCACTTAGATTTTCATAAAACGTTCGAAGATTATTTTCTTGCTAAATCTAAAATTTTTCATTCCATAGATTTAAATGGCAAGAAACTAATAAATATAGATTGTATGTATGGTCAAAGATTGAATGAAATTGAGGAGGAGAGTCTAACATTATCAACTTCAGGAAGAAATGCAGATTTTGCTTGCATAGATTATAAGGTTTCAATGGAAGGAATTTTCGCTAATTTTAGATTTTTTGATAAAGAATTTTCGATTAGTTCATCTTTAATTGGGAAAATTTATATTGAGAATATTTTAATGGCATCAGCAATAGCTTTTTTAAGCGGATGTTCATTTTTTGATATTATTAAAGGAGTAAAAGAAATTACTTCAATCAATGGAAGATTAGATAGGGTTGAAAATATCCCTAATGATATTTTTCTAGATTATGGACATTCTCCCGCAGCTTTAGAGGCAACTTTATCATCAATTAAAGAAATTTCAGAAAAAAAAATCAAAGTTTTATTTGGAGCAGGAGGCAATAGAGATAAAACTAAAAGATCATTTATGGCCAAAAGTGTTGAAAAATATGCTGATTTTATTTATCTAGCTCCTGATAATCCTAGAGAAGAAAAAATTCAAGATATTAATCAACAAGTTGCCCTAGGATTCAAAAAAAATAATCACAAAATTTTTTTAGATAGAGGAGATGCTTTAAAAGAGGCGTTATTAGATCTTAATACAGAAGATGTTCTTATTATTTTTGGGAAAGGTAACGAAACATATCAAGAAGTTTTAGGTGAAAAACAATATTACTCTGATAAAGAGATAATTTTAGAATTTTATGAGAATAGAAATTAAAGAAAAATCTTTTTTTAACTCAATTTTTACTGATTATTTCAAAATTAGTAAAGATACTACAATTCAGGGAATCACAAATGATAGTCGGTTGGTTCAGGAAAATGACCTGTTTATTGCTTTAAATGGAAAATTTGTAAATGGTAATGCATTTAACCAAGAGGTACTTTCTAAAAAAAATACCTTAATTGTTTCAGAAGAAGCCTTTGAAGATGGTAGAATTTATAATGTTGAAAGTATTGATAACTTTTTAAAAGATTTATGTAAATATTGGATCAATAAAACAAAAGCCTTTAAAATTGCTGTCACAGGCTCAAATGGAAAAACTACAACAAAAGAACTGATTCATCATTTGCTATTAAAAAATAATTTTACAGCTGAAAAAACAGAGGGTAATTATAATACCTCTATTGGAGTTCCGTTAAGTCTTTTTTCATTTAGCTTAGAATCAGATTATTACATTTTTGAATTTGGTGCGAACCAAAAGGGTGACATTGAAAAATTAACAAAAATGATTACCCCTGATTTTGGCCTTGTAACATCTATAGCCGAAGCTCATATGGAAGGTTTTCTTGATATCGAAAATATAAAAAATGAAAAAAAGAAGATTATAGAATTCTCAAAAAAAGGATCTTTTGGACCGGATAAAAGTATTGAATCAGTTTTATTGAAAGTCAAAAAAATACTTAAAGATTCTCTTTATTCATCAAATCATCATTTAATTTATAATATGGCTTTAGTAGTCAGCATTTTAAATGAAGTCCTGATTATTGACGAAAAAAAACTATTAAATGGATTAAAAGATTTTTCTCTGCCACCTGGTCGAGGTAACATTTTTGAATTAATCTTTAATGGCAAGAAAATATTTGTAATTGATGATTCATATAATGCTAACCCAAGTTCCGTTCGAGCTGCGATTGAAAATCTTCATTTATTGAAGATTAAAAAAATTAATAAGAAAATTTTTATTTTTGGTGATATGAAAGAACTAGGAAAAAATAAGAAAGATTTTCATTCATCTATTGGGAAGTTAATTGACAACAAAATTAATTGTTTTTTTTCAATAGGTAATTTAGCTAAAGAGACATTTGATTCAGCAATCATGGTTCCAAATAAATATCATTTTGATAATCAATTAGATTTATATTTGGAATTGACTAAAATAATTGAATCAAATGACGTTTTGCTTTTTAAAGGATCTAGATCTATGAACTTAAACCGCATAATTGAAAAACTTATTTCTGAAAGTAAATAATTATATGTTTTTAGAAATTTTTTTCAGCGATAGTTTTTCACCCATTAGCAATCTTTATAGCTATATAACTTTCAGAGCAGGTGCGAGTGCTATTTTAGCTTTATTGATTAGTTTTATTTTTGGACCAAGAATCGTAAAAGCGCTAATTAGTTTACAGGTTAAAGAAAATATCAGAGACTTTGGACCTGAATCCCACAAAAAGAAGGCTGATACCCCTACAATGGGAGGAGTACTGATTATTTTTTCAACAATCATACCTACCTTGCTTTTTGCAGATCTTTCCAATCTTTTCATCAGAATAGTTTGTTTATCTATGATTTGGATGGGTTCTGTAGGTTTTGTTGATGATTATTTGAAAGTTGTAAAAAAGAAAAAAGATGGATTAAGTGCGAGATATAAACTGATTTTTCAGACCATCTTAGGATTAATTATTTCATATTTGTTAATTTCATCAAATGTTTACTCAGACTATACATTTCAGACATTTGTTCCATTTTTTAAAGATGTTGTTTTAAATTTAGATAATTGGATTATTTATACTTTTTTTATTGTTCTTGTTGTAACAGCTACATCCAATGCTGTGAACCTATCTGATGGTTTAGATGGTCTAGCTACTGGTTTATTAGCAATTTCAATCAGCGTATTTATAATAATCGCCTATATTTCAGGAAGAGTAGATTTTACGGAATATCTTTATATCGAATATCTTCCTTTGGCTAGTGAATTAACAATTTTTTCTGCTGCTTTTTTTGGAGGTTGCTTAGGTTTTTTATGGTTCAATGCAAAACCTGCCCTTATTTTTATGGGCGATGTAGGGTCTCTTTCTTCTGGAGCTGCTTTAGGAACCTTAGCGATTCTTTTAAAAAAGGAAGCTCTTCTAATTATAGTAGGAGGAGTTTTTGTTGTTGAAGCTTTGTCTGTTATTATTCAGGTCTTTTATTTTCGATATACAAAAAAGAAATATGGAACTCCGAGAAAATTTTTTCTTATGGCCCCAATTCACCATCATTTTGAATTAAAAGGTTGGCCAGAATCAAGAGTAGTCATTCGATTTTGGTTAATTGCAATCCTTTTAGCTATTTTGTCATTAACGTCATTTAAAGTACGTTAATTATGCGAAGAAAAACTAATTCAGTTAAGGTTGGGAAAGTTAATATAGGAAGTGATTTTGATATTGTTGTTCAATCAATGGTTACATCTAGCACCTTAAATACTATTGATTGCATTAATGAAGCTATTGAAATTATTGAAGCTGGATCTCAATTAGTTCGCTTTACAGCTCCAAATATTAAAGAAGCTAAAAACCTTGGATTGATCAAGAAAGGTTTGATTAAAAAAGGCTATGATACTCCCTTAGTTGCAGATATACATTTTACTCCGAATGCCGCATTAGAGGCTTCCTCGATTGTTGAAAAAGTAAGAATTAATCCTGGGAACTTTATTGATAGAAAAAAATTTTTAACATTCGAGTATACCGATGAAGAATACAACCTTGAATTAGAAAAAATTGAAGAGAAATTAATTCCGCTTATTGAATCTTGTAAGAAGCATAATACTGCTTTAAGGATTGGAACAAATCATGGATCTTTATCAGACAGAATTATGAATAGGTATGGAGATACTCCTCTAGGAATGGTAGAGAGTGCTCTAGAATTTCTTCGAATTTGTAAGAAAAACAATTTTGACCAAGTAGTTTTATCAATGAAATCAAGTAACCCGTTAGTTATGGTACATGCTTACAGATTGTTGGTATATAAAATGAATAAAGAAGAGATGTTCTATCCATTGCATTTAGGAGTAACTGAAGCGGGCGATGGAATTGATGGTAGAATCAAATCTTCGATTGGTATTGGATTGCTATTACTAGAAGGAATTGGAGATACAATTCGAGTTTCTTTAACAGAGGATTCTAAGTATGAAATCCCTGTCTGTAAGCAAATTATTGATAAAGTTTTATCTACAGACCAATCTGAAAGTAATTTTGAATCGAATAGAAGTTTTTCCTTTTTAAAGAGGCAATCCAATTCAGTCTATTTTATTGGAGGTGAGCATGCTCCTGTGGTTATTTCTGATTCGAAAACTAATAATACATTTAAATCTGATTTAATTTTTTCTGAAGAGACTAATTCTTTAAATCCAAATAATAATTATGTGATACCTGCTGAAAACTTGCTAGAAATTCAAGAAAATGTTTTTCCTTTGTTTTCATCAATAGGAGATTTTAGAAAGAGTAAAATATTATCAAGTAAATTAAACTTCTTGATTTTAAGTAAGAACTCTGCAAGAAAGGATATTCTTAAATCAATAAATTCTAATTTAGTTATCATTCTAGATTTTGAAGAGTTTAATAGAAATGAGATAATCGAACTTTTGGACTATTTTGAAAAAGAGAATATTAATTTTCCAGTTATATTTAAATGCAAATACCTATCCAAGAATATTAATGAATTAGCTGTTCATGCTTCAATTGATATTGGAACTCTTCTCCTTGAAGGTTTCGGTGATGGAATTTGGTTAAATTTACATCATAAGAAAGAGTTTTCTTCTGAACTGGCATTTACTATTCTCCAAAATACTAGAAGAAGAATATTTAAAACTGATTATATATCTTGCCCCTCCTGCGGAAGGACTCAATTTGATTTGCAAAAAACTACTAATTTGGTTAAGGAGTTTACAAGCCATTTGAAGGGGTTAAAGATTTCTGTCATGGGATGTATCGTTAATGGTCCTGGAGAAATGGCAGATGCAGACTATGGATATGTTGGATCAGGTAAAGGAAAAATATCTTTATACAAAGGAAAGGAATTGATTCAAAGAAACGTTGATAGCAAAAATGCTGTTGATGAATTAATTAATTTAATAAAAGCTAATAATGATTGGATTGAACCTTAAAACTCTATATTGTTGTTTAAATAGCCATTTTTAACTATTATCTCACATATGAACAAAGTACTCGACAAACTAATTTATCTTTGGGAAAGCTCTTTGAATCCTCTATTTATAATATTGATTGGTATAGTTTCTGGGATTTTTTTTAAAAAATACATTTTTGGAAAGATCAAAACATTAACTAAAAATACTTCATGGAAAGGTGATGATATTGCCATCAATGCGATTAATTCAGTATTAGTTTTTTGGTTTTTTCTTGGTTCATTATCTTTTGCAATTAAAAATAGCGTTCTATCAGAATCATATGCTTTATTAGCATCTAATATAGTTTCTGCTTTTCTAGTTATTTCTATTAGTTTTACTCTATCAAAAATAATAATTGGACTTCTTGATCTATGGTCATCATCGAATAGTTCAGTTCCATCAACTGGTATTTTTAAAGGGTTGGTTAATTTCTCAATCTTTTCTATAGCAATTATTTATATTCTTCAGTCTTTTAATGTTTCCATTGCCCCTTTAATCACAGCTTTGGGTGTTGGAGGTTTAGCAGTTTCTTTAGCTATGAAAGATACTCTTGCTGATCTTTTTGGAGGATTGAATCTCTTGATAAGTCAAACAATGAAAGAGGGAGATTATATTGAACTTGATAACGGACATCAGGGTTACATTCAGAATATTGGATGGAGATTTACTACCCTAAAAGAAAGATCTAATAACATTATTTCTATTCCTAATTCAGTTTTATCAGGTTCAATTTCAAAAAATTATACTAAAGAAGATGCTTCTTTTAGAGTTCCTATTCAAATTGGTGTTTCTTATGATAGTGACTTATCGCACGTTGAAAAGGTCACTTTAGAGGTGGCAAAAGAAATATATTCAAAATTAGATTGTGTAGATAAATCATATGATCCAACCATAAGATTTAGGGAGTTCGGTGATTCAAGTATTAACTTTTTTATTTATTTTCAGGGTAAGGCTTTCGGTGATCACAATGAAATTTTAAATGAATTTATTAAGAAACTTCATGTTCGTTATAAGGAAGAAAATATTGAAATACCTTTCCCTATAAGAACTTTAATTCATAAAAATGAAGTTAAAAATTAAACCTTTTAATAGTAAGGTTCGTTTATTTTACGATAATCACTCCCATTTTCATTCTGGTGACGCAGGTTTAGATTTATTCATAGTTGATAATCAATTAATCAAAGGAAAATCATCCTCTTCAATTCATCTTCAAATTGCTTGTGAGAATTTAGATAATAAAGCTTATTATCTCTTCCCACGCTCGAGTATTTCAAAGTCACCATTACGATTAGCAAATTCAATTGGACTTATTGACGGTGGTTACAGAGGTGAAATTGTTGCAATGGTTGATAATATTTACGATGAAGATTATGAAGTAAAAGAGGGTGAGCGTTACTTTCAGCTAGTAGCAGTAGATAGTTCTCCTATAGAATTTGAAATAGTTGAAGAATTATCTATCTCAACAAGAGGTGAAGGCGGTTTTGGAAGTACCGGTCGATAAACTTTTGTCTAAATGTTTTAAAAAAAAATTGTAATTGTTTTCCATAAATATTAAAATTCGCCATTAGAATTGACATATTTTAAAAGGAGAAAAAAATGTCTTTAAAAATCAAGCCACTCGAGGACAGAGTTGTAGTAGAGGCACTATCAGCTGATGAAAAAACTGCTAGTGGTATCATTCTTCCTGATACTGCACAAGAAAAACCTCAACAAGGTACTGTTTTAGTTGTCGGTCCTGGTAAACCTTCTGAATGTTCTGACTGCAAATGCAATGATAAATGTTGCTCTACTTTAATGACTGTTAAAGTTGGAGATAAAGTTTTATATGGAAAGTATTCTGGTACAGAAATTTCATATGAAGGTAAGGATTTATTAATTATGCGCGAAAGCGATATACTAGCAATTTTATAAAAATATTAGGAGCAAATAATGTCTAAAGAAATAGCATATAATACTGAAGCAAGAAATTCATTAAAAAAGGGAGTAGACCAATTAGCTAATGCCGTTAAAGTAACTCTTGGACCCAAGGGAAGAAATGTGGTCATTGAAAGAAAATTTGGATCACCACTAGTGACAAAAGATGGAGTATCAGTTGCTAAAGAAATTGAACTAGAAAATGCTTTAGAAAATGTTGGAGCACAAATGGTTAAGGAAGTTGCTTCAAAAACTTCTGACGTTGCTGGTGATGGTACCACTACTGCTACTGTTCTTGCTCAATCAATAATTGCAGAAGGTTTAAAGAATGTCACAGCAGGAGCTAACCCAATGGCTATCAAAAAAGGTATTGATCTTGCAAAAGATAGCATTGTCAAGTCAATTGCTAAGTTATCTAAAGAGATTCCAGACTCCAATCAAATTGCCCAAGTAGCTACTATTTCTGCTAATGATGATAAAGAAATTGGATCTAAAATAGCTGAAGCAATGGATAAAGTAGGTAAAGATGGAGTAATTACTGTTGAAGAATCAAAAACTGCAGAAACATATTTAGAATTTGTCGAAGGAATGCAATTTGATAGAGGGTATTTATCTCCATACTTTGTAACTAATTCAGATTCAATGGAAGCAGAATTAGATGATCCATTTATTTTAGTTCATGATAAAAAAATAAGTAATATGAAAGATTTATTACCCATTTTAGAAAAGGTAGTACAATCAGGTAGACCAATCTTAATAATTGCTGAAGATATTGAAGGTGAAGCGTTGGCTACTCTAGTTGTAAATAAGCTTAGAGGAACATTTAAAGTGTTAGCTGTCAAAGCTCCAGGCTTTGGAGATAGAAGAAAAGCAATGTTAGAAGACATAGCAATCTTAACTGGTGCGACTGTTATATCTGAAGAACAGGGTTACAAACTAGAGAACGCTACTTTAGAATATCTTGGCTCATGTAAAAAAGTAGTGAGTGATAAAGATAACACAACTATTGTTGATGGTATTGGAAAAAAAGAATCAATCACTGCGAGAGTTAATGAGATCAAGGTTCAGATTGAAAAAACTTCATCTGACTATGATAAAGAAAAACTTCAAGAGAGATTAGCAAAGTTATCTGGTGGAGTAGCTGTTTTAAATGTTGGTGCAGCAACAGAAGTTGAAATGAAAGAAAAGAAAGCTAGAGTTGATGATGCGCTTCATGCTACTAGAGCTGCTGTTGAAGAAGGAATTGTTCCTGGTGGAGGAGTAGCATTACTCAGAGCAAGTGTTGATCTCAAAAATCTAAAATCTGAGAATAGTGAGGAACAAGTTGGTATTGATATCATGAAGAAAGCTTTAGAAGGACCAATTCGTCAAATTTGTTCAAATGCAGGCGTTGAACCTTCGATTATAGTCCAAAAAGTACTTGAAGGTAAAAATGATTTCGGATATGATGCTAGAAATAACGAATATGTTAATATGTTCAAGGCTGGTATTATTGATCCTGCTAAGGTAGCTCGCGTGGCTGTTGAAAACGCTGCTTCTATTTCAGGTTTGTTGCTTACTACCGAAGCTGCAATAACTGAAAAACCAGAAGAAAATAATTCCCCAATGCCAGGAGCTCCAGATATGGGCATGGGCGGCATGGGCGGCATGATGTAAATTAGCTCCTTTTGCGAGATGTTTATTAAATAAAAAACCCTCTATTTGAGGGTTTTTTATTTTGATTATTATATATAAAATTAGTTAATGGCGAATTTAGAAAAAGTCTATCTTTCAGTTGGTTCTAATCTTGGAGATAAAGAATCTAATATTGCTTCTTCAATTGTTATATTAAGTTCGGATAAAGAAATTTTGAACATTCGAACTTCTTCTTTTTATGAAACTGAACCGCTTTATAACAAAAACCAGTCTAATTTTCTGAATATAATGATTGAATGCGAAACTACCTTAACTCCTTTTAAGCTTTTGGATAAAATCTCAGAGATTGAAAAGATTTTGGGAAGAAAAAGAAAAGATGTCAAAAATTTACCCAGAACCATTGATATTGACATTGTTATTTTTGGAGATTTTTTTATTGAAACTTCTCAATTATCAATACCTCATCCTCAAGCTCTTTTTAGAAAGTTTGTTTTAGTACCTTTAAAAGAATTAGCTCCAGAGTTAATCTTTCCAAAAACAAAATATACTGTGACAGAATTATTGTTAAATTGTCCAGATAATAGTAGTGTTGTTAAATATAATATAGGTAAAATAGCTTAGATGAATGAATTTCAATCATATATTGCAATTGAAGGGCCGATTGGTGTAGGAAAAACAAGTTTAGCTACTAAACTTGCAGTTAGCTTAAATGCCAGAAAAGTATTTGAAGATTTTAATGAAAATCCTTTTCTTGCTGATTTTTATGATGATATTGAAAATAATGCTCTTCAAACTCAAATGTGGTTTCTTCTTCAACGGTATAGACAACAACAAAAAGATATAAAGCAATTAAATGCGTTTCAGAAAGGAGTTGTAAGTGACTATATGTTTGAGAAAGATAGACTATTTGCTGAGTTTATTTTGAATTCTCAAGATGAATTTGATTTATACTCTAAAGTTGCTGATATACTTGAAAAAGATATTTTAAAACCAGATTTAGTAGTTTACTTGCAAGCTGAAACTTCTAGACTAATGCAAAATATTAGAAAAAGAGGCAGAAAAATTGAGAAAGGGATTACTTCAGATTATATAAATCAAGTTAATGAGAAGTATCAAGAGTTCTTTTTAAACTTCGACGAAGAAAGATCTCTCCTAATTATTAATACAACAAACATTGATTTTGTTAATAACGAAGATGATTATGAAAATATTTTACAATTAATTCAAGAACCTGTTAATGGAGTCAAATATTTTAACCCTGGAAACTAAATGCTAAAACTTTTAATTATTTTTCTAATTCTATTTTTTGTTTACAGAAAAATTTCTAAAACTAACATAGTAGATTCACCAATAAAATCTAATAAGATAAACTATAAAGAAATTGAAGATGTTGACTTTGAAGAAATTAATAAAGATTAGTTTATTTCTATTCCTGTTTAACTTTGCTTTTGGTCAAATTGGTAAAAAGAGCAGTGATCTCAATTTTATCTTTGCAAATAACGGGTATGGATTTGGTTTTGAAAATACTAAACAAAAAAATGAAGTTTTACAAATAGGGTTAGATTTAAGAGTTTATGATATTAGAAGAGATGAATATACAATTTATAATGAGTTTTACAATCAATTTGGTGTGATAGGAGAAAAAAGCATCTTAATGATTCCAGTGTATGGTCGAATAAATTATCTATTATTTCAAGACAAAATCGCTAATAACTTCAAGCCGTATTTTTTTATCTCAGCTGGAGCTTTAATCGCTGTAGACGGCAATGAAAACGAAAGAAGTTTCCGTAAAAAATGGTTTGAGGCTGAGACTCAGGTAGTACCAAGTCTTTCAACGGGATTTGGAGTCGATTTTAATTCAATTGGTCAAGGCAATTCAATCTCCTTAGGAATTGGATATGATTATTTTAAAACTAAAGAACCAATTCATAATAAAGACGACTACGGTGGAATTTTTTTATATTTAAAATATAGAATAAAAAGTGAGTAATTGTTTCTTTTTATCAAAAAAACTTATTGAAAAAAAAACATTTCAATTAGATGCTCAAGAGTCTAAACACATTACAAGCGTCTTAAGGCTTCATGTTGGTGAAAAGATATTTTTATCTGATGGTCAGGGAACAGTTTATCAAGCTCAAATTGAGAAAATTGATAATAAAATAGTTCAAGGTAAAATTATTAAAAGTTTTGATAACTTGAACGAGACTTCATACTATCTTCATTTAGGTCTACCATTAATCAATAAAAATAGATTTAAATTTGCTTTAGAAAAAGCTGTTGAACTTGGAGTTAAAGAGATTACTCCAATAAAATTTAGTCGTTCTCAACCATTCAACTTATCTGAAAGTAAAATGAATTCTATTATTCTATCAGCTAGCAAACAGAGCGTTAGAAGTATTTTCCCAAAACTAAACAAAATAAGAAACTTACAAGAATGGCATTCAATTGAATCAGTAAATTTGGTTGCGAAGATAGATTCAGATTTTTCCCTTTTTTCCAAAATGAATACTATTTTAAATGAGTATAAAAAGTTTAAAAAAATATCTATATTGATTGGTCCCGAAGGAGACTTTTCTCCAGATGAAATTACTTTTCTTAATGAAAATAACTTTCAAGACATTTGCTTGGGAAAAACTATTTTAAGGACTGAAACAGCAATTATTTCAATGATTGCAATACTGAATGAAATTTTTGAGAATGAAAAACACTAAATCTATTTTTGAAATGATAGTAGATCGAGAAATTGATGCAAAAATTGTTTATGAAGATGATTTAGTAATTTCAATCGAAGATATTAACCCTGTCGCACCTTATCACTTCTTAATTATCCCTAAGGAGAAAATATCTACATTAAATGATTTAAACAATTCGCACAAGGAGCTTTTAAACAGAATTTTTGAGGTTGCAAGAAATATTGCAAAGGAATTTAACTTTGATCAAAAAGGATATAGAACAATATTTAATTGCAATGAATATGGCGGCCAAACTGTTTATCATATTCACCTTCATCTAATTAGTGGCAGAAAACTTGGATGGCCTCCTGGGTAAAATATGTACATATCTAAAATAGAATTATATGGTTTTAAATCCTTTGCAAAGAAGGAAATTATAGATCTTCAAAAAGGTATCACTGTCGTAGTGGGTCCCAATGGATGCGGAAAAACGAATATTGTTGATGCGATTCGATGGGTTTTGGGAGAACAAAAAACAACTAAGCTTAGAAGTTCTAAAATGGAAGATGTTATTTTTAATGGGGCATCGAGTATTAAACCTCTTGGTTTTTGCGAAGTTTTTTTAACAATACAAAATGATAAAGGGCTTCTACCTGTTGAATTTGAAGAAGTTGAAATCGGAAGAAAACTATTTAGATCTGGAGAGAGTGAATATTATCTAAATAGAAATCAGTGTCGCCTCAAAGATATTTTTAATTTATTTGTGGATACTGGAATGAGTTCTGATGCCTATTCTGTAATTGAGTTAAATATGATTGAAAAAATACTTTCTGATTATGATGATAGCCGAAGATCAATGTTTGAAGAAGCTGCTGGCATTAATAAGTATAAATCTCAAAGAAAATCTGCAATCAATAAGTTTGAATTAAATCAGAGAGATATTGAGCGTATAGATGATATTATACTTGAAATTCAAGAACAGGTAAATTATTTAGGATTGCAGTTTAAAAGATTGAAAAGATTTCAATCTTTAAATGAGAATCTCAAAGAAATGGAAATTAAGCTCGCATCTAAAAAAGTTTACGATTTAGAAGAAATTGTAAATCACAATAAATCAATAATTGAAAATCTAAATAAAAAACTTGAAAATTTTTCTACTAAAAAGGAAGCTAAGAATAGTGAAATAGATAATATATCAAACAAATATTTTTCAGAAAAATCTAAGCTTACAGAACTAAAACAGTTTGTTGATGATTTAACAGAAAAACTATTATCTGAGATTCAAGAAAAAAATAAAGAATCTTCAAGAGGTGTTGAGATTTTAGAAAATGAACTTCAAAGAAGAATGGATCAATTAACAAGCTTCGATAAAGATTATATTAAAATCGTGTCAAGTTGCGATGAATGCAATTCAGGGTTAAATCTTCAAGTTTCGTGTTCAAAATGTGGCAAAATACATGATAGTTCAAGTTTTAAACTTATTGAATCAGACAAAAAATATGAAGAATTGAAAAAGAGTATAAAAGATTACAGAGATAAAATTAAAAACTATAAAAATGAAAAAGAATTAGACTTTTCTGCAATGGATAAATCGATTGATAAAATTAAAGAAGAAATTACTTTGAATAAATCTAGGCTTGAAAAGCAGGAGGAAAAAACAAACAAAGCTTATGTTGAATTAGAAACTTTAAGACAAAAAATATCTAATGAAGGAATGGATAGAGAAGAAATAATTTTTGAAATAAAGAATTACGAAATAAAAATTACTGAATCAACCTTAAGAATTTCTCAAATAAAAGAAAATATAATTGAGAAATATGGTGAAAATATAAGATTTACTAAAGATAAAAATATCAACTTATCAGAATTATCATTTGAAGTTGAAAAAATTAGAAGAAGTGTTGATTCTATTGGACCAATAAATTGGGCTGTTGAAAGCGAATTCGAGGAGAAAAAGAAAAGATTAGATAATTTGATTGATCAAAGAGAAGATCTAATTAGCGCAGAAAAGAATTTAAAGGAAGCAATTCTCAAAATAGATAGCGTTGCAAAAGAAAAGTTTTTGGAAACCTTCGAAATAATCAATGCAAACTTCGAAAAAATGTTTTCGTCATTCTTTTTAGGAGGAAAAGGGTATATTTTTCTTGAAAATCAAGAAGATCCTTTATCATCATCAATTAATATTTTTGCTCAACCTCCTGGAAAAAACAATAAGGTTTTGAAATCGTTATCTGCTGGCGAAAAGTCTTTAACTGCAATTGCATTATTGTTTTCTATCTATTTATACAAACCAAGTCCTTTTTGTATTTTAGATGAAATTGATGCTCCCTTGGATGATATAAATATTAAGAAATTTACAGACGTTATTGTTGAATTCAGTAAATCTACTCAATTTATGATAGTTACTCATAATAAGCTAACAATGGAAAGTGCTAATATAATTTATGGAGTTACATCTGAACAACAAGGGGTTTCCAAAATAATTTCTATAGATTTAAATTAAAATTAATTATTGTAGTATTGGAACTTATTGCACAAATTACGACCGAATTTTAATAACAAAAACTGAGATAGATTATTTATGGCTACTAAAATTAGATTAAAAAGAATTGGAAGAAGAAATAGACCATTCTATAGAATTATTGTAATTGATTCCAGAAAAAGAAGAGATGGTTCAGAAATTGAACTTCTTGGCTGGTACAATCCAATGGAAAAAAACAAGGATCAGAACTATAAAATTAATGAAAATCGTTTAATTGATTGGCTTAAAGAAGGAGCACAACCTACCGATCCAATAAATAAAATAATGAAAAGATCAGGTTTATCTTACAAATGGCATTTAATTCAACAGGGATTAGATGAAGACATGATTGCCAAAGCTCTTGATGAATGGAAAAAAGAAAGAGAAGCTGTTATTGAAAACAGAAAGAAAAAATCCATTGAGAAAAAAGAAAATAAAAAAGCGGAGAATGTAGCAAATGTTGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGA
>sequence07
CCTAAGGGTTATATGAGAAGATTTGGTATTTCAAGAATTACATTCCGTGAACTCGCTCTTAAAGGCGATCTTCCCGGAGTAACAAAGGCAAGTTGGTAAGGAGATTATTTTATGTCAATGACAGATCCAATAGCAGATTTTTGTACTAGAATTAGAAATGGTTATTCATCTAACAAACGATGGATTGATATACCTTCTTCTATTTTAAAGAAAAGAATTTCTTTAGTTCTTAAGGAAGAAGGCTATATAGACAACTTTGTTTTCGTGAAAAAAGATTCTAACAAAGAAGATATTAGAATTTATTTACGATATGAAAATAGCACGCCAGCAATTACTTCAATTCAAAAAATAAGTAAACCTGGAAAAAGAGTTTATGTTGGATGTTCTGAAATTCCTCGAGTTCTAAACGGGCTAGGAATCAGCATTATTTCAACATCAAAAGGAGTACTTAGCAGTAAAGTAGCTAGAGAATTAAAAATTGGAGGAGAGTTGCTCTGCAACATTTATTAAGTTATGTCAAGAGTAGGAAAAAGAACAATCACAATTCCAGATTCAGTTAAAATTTCTGATTCTTCAAAAATTTTAACCATATCCGGTCCTAAAGGAGAAATGAAAGTCAATTTATTTGAAGGCATATCAGTTGATATTTCTGAAAACTCTCTTTCAGTCACTAGATCTAGCGACGAAAAGACATTAAGAGCTATGCATGGAACAATGCGTCAATTAATTTCAAATGCAATCGATGGTGTTAATAATGGATTTTCAAAAGTTCTTCAAATTCAAGGTATTGGATATGCTGCAAGAACTGAGAACAATAGATTAGTTTTACAATTAGGATTCTCTCATGATATTGCAATTGATTTACCAGATGGAGTTGAAGCATTAGTTCAAAAGAATGAGGTTGAAATTAAAGGCATTAATAAACAAATTGTTGGTCAATTTGCAGCTAAGGTTCGCTCTCTCAGAAAACCAGAGCCCTACAAAGGGAAAGGTATTCGTTATAAAGGTGAGTATGTCCGTTCTAAACAAGGTAAGAAAGTCGGTGGTAAAGATTAATGAAAGCTTTAGAAATTAAAAAAATTCAATATAATAGAAGAAGAAGGCGTTCAAAAATTGCTTTTCCAGTTGATGGAAAACTAAGATTGTGTGTCTTTAAAAGTGCAAAGCACATAGAAGCACAAATAATTGACGATTTTAATCAAAAAACAATGGTTGCTGCTTCTTCTAAAGAAAAAACTTTTGCGAATGAAAAGAAAAACAAAACTGAAATTGCTTCAATGGTTGGAAAATTATTATCAGAAAGAGCGAAAAAACTTAAAATAGACCAAGTCTATTTTGATAGAAATGGATTTAGATATCATGGAAGAATTAAATCTCTTGCAGATTCCTCAAGAGAAGGTGGATTAAATTTTTAGGAGAATAAATGGCTATTGTTAATCATTCAGAATTAGATCTTAGAGAAGAATCAGTTATAAGAATTAATAGAGTTGCAAAAGTTAATTCTAGAGGAAAAAGATTTAGCTTTTCTTCATTAGTGGTTATTGGAGACGGAAAATCATATGTTGGAATAGGATCTGGAAAGGCAACTGAAGTTTTAGTATCTATATCTAAAGCAAAGGATGATGCGAAGCAAAATCTAGTGAAGATTCCAGTTATCAACTATACTATCCCGCATGAGGTAATTGGTAAACACGGAGCTAGTAAAGTATTATTGAAACCTGCTCCTTTTGGAACAGGAATTATTGCGGGATCATCTGTTAGATTAATTATGGAGCAAGTCGGAGTTAATAATATTTATTCTAAAGTGTTGGGATCAAATAATGCAATGAATGTCGCGAAGGCTACAATGAATGCTCTTAACAGCTTGCAAGACGTAAGGAAAGTTGCGAAAAAAAGAGGTAGAACACCCAAAACATTATTTGAGATTTAATATGGCTAATAAAAAAGTAAAAGTTACGCAAATAAAAAGTAGAATTGGATATTCTGTAAAAGCTAAAGCAACTCTTGATGCTTTAGGTCTTACTAAAATGCATAAATCAGTTATTCTTGAGCTCAATGATTCAATTGCTGGAATGCTTAATAAAATAGACTATCTCATTAGGGTCGAGGAGGTGAAATAATTCATGAAAATTTCAAAGCCAATAAATTCTGTTAAATCTACAAAAAGAGTTGGAAGAGGAAGTGGTTCTGGATTAGGTGCAACCTCAGGACGTGGTCATAAAGGTGGAGGTCAAAGAAGTGGATTTAAGCACCGTTACTGGTTTGAAGGTGGTCAAATGCCTTTACATCGTAGACTTCCAATGAGGGGTTTTAATAATAAAAATTTTGAAACTTCTTATGAGATTGTTAACCTTTCACAGTTGTCAAAAATTAAAGTTAAAAATATTGATTTAGATGTTTTGGCAAAAGAAGGTTTGATTTCTTCTAGTTTTTCTGCTGTTAAAATTTTAGGTAATGGCGAGATTTCCAAAGAAATTAATATTTCAGCTTCTTCATTCAGTAAATCTGCCAAAGAAAAAATTGAAAAAGCTGGTGGCAAGGTCAATATTTTATGATTCAGAAAATTAAAAATATTTTCAGTATCCCCGAATTGAGAAGTAAAATTTTATTTACTGTTGCTATTCTTATTGTTGTTAGATTAGGATCTCAAGTTCCGATTCCCGGTATAAATCCAGATGCTCTTCGTCAAACAATGGAATCTTTAAGTAATACTTTTTTTGGATTATATAATTTGTTTACAGGTGGAGCTTTTAGTCAAGCAGCAATCTTTGGTCTTGGAATAATGCCATACATATCTGTATCAATTATTGTTCAAATTCTTCAAACAACCTTACCTTACTTTCAACGTTTATCTCAAGAAGGAGAAAGTGGTCGTGCTAAGATTAATCAAATTATTCGATATGGGACTGTAATTCTTGCTATGGTACAATCCATTGGTATTGCTTATTTATTAGAAAGTTATGGTATTGTAATTAATCCTGGTTTTCTTTTTAGATTTACAGCAATTGTATCTATTACTACAGGCACAATGCTTTTATTATGGTTAGGAGAAAAAATTACTGAAAATGGAATAGGAAATGGTATTTCTCTTATTATTATGGCAGGTATTTTAGCTGCTTTCCCAAATGTTGTTATTTCCGAAATTTCTTACTTTCAACAAGGAGTTAGAGGTATTTTATCAGAATTTGCTCTTATGATTTTATTTTTCTTTTTAGTTATGTTAATTGTTTTAGTTCAACAAGGAGTTAGAAAAGTACCAATTCAATATGCTAGAAGAATTATTGGTAGAAAAGTTTATGGCGGTCAAAACACTTATCTTCCACTTAAAATTAATACTGCTGGTGTGATTCCAATCATATTTGCCCAATCTATTCTTTTAATCCCTGGAACGATTGCAACATTCTTCGGTCAAGATGCTACACAGTCTAACTTCATGTCTTGGTTTGCTATGGATCATTGGTTTTCTAATGTTTGTTTTGCAATTTTAATAATATTTTTTACCTATTTTTACACTGCCCTTCAATTTGATCCAAATCAAGTTTCTTCTACTCTAAAACAGCAAGGTGGATTTATTCCTGGTGTAAAACCTGGAAAGAAAACTGCAGAGTTTATTGAAAATATTTTAACAAAGGTTACTCTGCCTGGTGCCATTTTTCTTGGTTTTATTGCTCTTATGCCATACTTCTTAACTCAGTTTGGATTAGATTATGCTTATGCATCATTTTTTGGTGGTACAAGTTTATTGATTGTTGTTGGTGTTGGTTTAGATACACTCAGTCAAGTTGAGAATCATTTATTATCAAGGCACTATGAAGGTTTTCTTAATAAAGGTCGTGTGAAATCGAGAAGATAATGGTGGATATTAATAATAACTCTGAAGTACAAGCTATGACTGAAAGTTGTCAAATTCTTTGTGACACTCTAAATCATATCGAAAAATATGTTATTCCAGGAGAATCAGTTTTAAAACTTGATTCTATTGCTGAAGATTACATTCTTTCTAAGGGAGGTATACCAGCCTTTAAAGGATATAATGGTTATCCTTCAACTCTATGTATTTCCATTGATGATGAAGTAGTTCACGGCATTCCTCAAAATATATTTTTAGAAGAAGGTCAAATTGTGAGTATTGATTGCGGTGTTTTAAAAAATAATTATTACAGCGATTCGGCAAGAACCTTTCCTGTAGGAAAAATTTCTGATGAGAAACAAAAATTAATTGAAGTCACGCAACGAGCTCTTGAGATTGGAATAGAGAAAGCTATTCCAGGTAATAAAGTTTTCGATATAAGTGATTCTATTCAGAAATTTGTCGAATCAAATGGTTTTTCAGTAGTTAGAGAGCTTGTCGGACATGGAATTGGCAAACAACTTCATTTAGAGCCTCAGATACCAAATTTTTCTGTTCCTAAAACTTTTAGCTTAGATACTCTGCTTGTTGAAGGTATGTGTTTAGCCATAGAACCAATGGTCAATTTAGGAAAAAAAGATATTTATACGTTGGAAGACGGATGGACCATTAAAACAAAAGATGGATCACCAAGTGCACACTTTGAACATTCAGTTCTTATTACTAAGTTTCAACCCAGAATTTTAACAAAGAATTAATATGGCAAAACAAGAACCAATTTCAGTAGAAGGTACGATAAAGGAAGCACTTCCAGGATCAAGATTTAGAGTCTTGATGAATATTGGAGGCAAAGAACATGAAGTTCTAGCTGAGGTAAGCGGTAAAATGAGAATGCATTTTATTAAAATGCTTCCTGGCGATAAAGTTGATTTGGAACTTTCCCCATATGATTTAACTAGAGGAAGAATAACATTTAGACATTAATTATGAAAGTAAGAGCATCAATTAAAAAAAGAACACGTGATTGTATCATTGTTAAACGCAAAGGTAAAGTCTATGTTATTAATAAGAAAAACCCAAGACACAAACAGAGGCAAGGTTAAGCATGGCTAGAATCGCAGGTGTAGATATTCCAAAGAATAAAAAATTGGCATATTCTTTGAGATATGTTCATGGTATAGGACTTCATACAGCATTACAAATCTGTGAACTATCGAAAGTTGACCCTGATTTAAGGGTTTCAGATCTTTCAAGTGCTCAGGAAGATGCTTTAAGAAAAACCATTTTAGATCTAAAAATTCTCGTTGAAGGTGAACTTAGAAGTGAAAACTTGAAGAATATGAAGCGATTGCAAGATATCGGAAGTTATCGTGGTTTAAGACATCGCAAATCTCTTCCTTCAAGAGGACAAAGAACTAAAACAAATTCCAGAACAAGGCGTTCTGGAAAAAAAACAACAATTTCTTTAGGTAGGAAATAATAATGGCAGTTAGAAATAGAGTAGCAAAAAAAAGTAAGAAAAAAATTAGCCCGAATGGCATTGTTCATATTAAGGCTACTTTTAATAATACTAATATTACAGTTACAGATGAATACGGAAACGTAATTGCATGGGCAACTGCAGGAAAAGCTGGATTTAAAGGATCAAGAAAAAATACAGCTTACGCCGCAACTGTTGCATCTGAAAAAGTGGCATCTGAAGTTGTTAGTATGGGTCTTGCTACTGTTTCTGTTCGTGTGAAGGGACCAGGTGCAGGAAGAGAATCCGCTATTCGTGCACTATCAACTGCTGGATTGCATGTAACTTCTATTTTAGATGTTACTCCGCTTCCTCATAACGGATGTAGACCTAAAAAACAAAGAAGAGTATAAAGGATACAATGGCAAAATTAAGTACACCAAAGGGTAAATTAGTAAGAAAACTAGGCACTAATATTTTCGGAAATCCAAAATTCGATAAATTATTATCTAAAAAAGGTTATGGTCCTGGTCAACACGGAAAGTCAGGAAAACGTCTTTCTACATATTCTACTCAACTTCAAGAGAAACAAAAAATTAAATTCACTTATGGAATGTTAGAAAAACAGTTCCGCACATATTTTCAAAAAGCATCTCAAATGAAGGGTGAAACTGGTTTAAATCTATTAATTATGCTTGAGACAAGATTAGATAATATTGTTTTTAAACTTGGTTTTGCACCTTCAAGACCATCTGCCCGTCAATTAGTTAGCCATGGTCATTTTCTTGTAAATAATAAGAAGGTTAATATTGCTTCTTATAGAATGAAGCCTGGTGATATTGTGCAGGTTAGGGAAAAAAGTAAAAAAATTGATATCGTATTAAATTCAGTTAAGATGATTAAAGGTGATTTAAGCACAGCATGGTTGTCACTTGATAAAGCAAAAATGGAAGGTACTCTGGTTAGTTTACCTGAAAGATCTGAAATTGATATGACAATAAATGAACAATTAGTAGTTGAATATTATTCAAGGTAATAAAGGAAAGATATATTATGGGCAATGATTTAAAATTTAAAATTAATGAAAATTCAACTGGAAGTAATTCAAGTAATTTTACTATTAAACCACTTAACAGAGGTTATGGTATTACGATCGGTAATTCACTTAGAAGAGCATTATTAACTGCTGTTCCAGGTTCAGCAATCACAAATATTAAAATTGAAGGTGCATTACATGAATTTTCGACAATTGATGGTGTCAAAGAAGATGTTGCTGATATTATCATGAATCTTAAGGGTGTCAGATTCAAATTATTTGAAAGTTCAGTTGAACCAGTTTTTATTAAAATTAAAGGTAAGAAAACTTTTACCGCTGCAGATATTCAAGCTGCGAGTAGTGATTTCACTATTTTAAACCCTGATCATTATATTACCGATATATCAGCAGGAACTTCCTTAGAAATTGAATTAAGATTAGGTATTGGGGTTGGATATAAATCTAGTGACGAGAATAAACTAAATAACTCACCTGTAGGAATGATTCCAATAGATAGTATTTTTAATCCTGTAACTAAAGTATCATTTAATGTAACAGCTTTGCCTGGTGCTAAGGCAGATACTGAATTACTATCTTTAGATGTTACTACTGATGGTTCTATTACTCCAATTGATGCAGTTAGCTATTGTTCTTCAGTGCTTGCTCAACATTTCAATATTATCAACTCAATTTCTAACCCAGCTGTGCTTGAGGTGGACAAACCAGTTAGTGAAGAAATTCTTCAGATTAGAAAGCTTTTACATTCTTCAATTGATGAAATGGAATTATCAGTCAGAAGTCATAATTGCTTAGAAGCTGCTGGTATCACTTTAATTGGTGAACTAGTTGAGAAGGATGAGGCCGAGATGTTGGAATACAAAAATTTTGGTAGAAAGTCATTAAATGAACTAATTGAAAAACTTGAAGGAATGGGTCTACGTTTTGGTATGGACACTAACCCATATATTGAAGAAGAAGTTTAAATGAGAAAAAGAATATCATCAAAAAAATTTGGAAGAGATCGTGACCATCGTACAGCAATGATTTCTAATTTAGCCTGTTCTTTGATTGAACATAAAAGAATTCGTACTACCCATGCCAAAGCGGTTGAACTTAGAAAATTTATTGAGCCAATGGTTACAAAATCTAAAAATCCAACTTTACACAATAGAAGAACTGTATTAAGTAAAATTAATAACCAAAAAGCTGTAGCTGAATTATTTAGTATTATTGGTCCAGCATTTTCCGAAAGAGATGGTGGTTATACCAGAATTATTAAAATTAAATCAAGAGTAAATGATGCTGCAAAAATGGCTTTAATAGAATTTGTTGATAAATCTTCTTTAGATAGTAATGTTAGCGATTTATCGCCTTCAGATAGTTCTTCTGAAGAAACATTAGCAGATAATTAGTTCATTTCCAGATTTTAATAATTTCTAATAGACTTATCTCGTCTATTTTATCAAAATCATTTACTTTATTTGAATCAATATCAAGAACATAGAAAATATCATCTATGTTAAAAGGAATACAAAGTTCAGATTTTGAATTAATATCACAAACTATATGTCCAGGAAATTTATTTACATCTCCCACATTTAAAATAGAATTTTTCATGATTGATTGTCCACAAACACCCTCAAAACTTATTGGGCTACAAGGGATATTATCTGAGTAATATAAATCTATACATAATCCTTCCTCAAATTTTTTATACAAGCCGCAAAATATCCAATTTGGAAATTCATTATAAAGAATCTCTAAGGAATAATTAATTAATGAATGATTGTAAGATTTTCTTTGATTTTCATCAGATTTATAATTGCTTACATTTGACTTAATTAATTTTAATATCTCGTCATATATTTTTTCTTTTGAGGTTAAATTTTGCATATTATGAATAAAAATAATAATAAAACTATTAATCCGATATTTATTTCTGGAATTCCAAGAAGTGGGACAACTTTAGTGGGTAATATCCTTGGTAGTATAAAAAATTTTCAGGTTATATATGAACCATTTCATTTTCATCAAGGTATTAAATCTCTAAAACAAAAATACTTAATTCCAAATGCGAATATTGATGAAACAGAATTTTTGAATCTATTAAAAGAGCTTTCTGATGGTAAGAGTAGATTCAAAATTGGAATCAAAGATAATGATACGATTTCTAAAAAAATTTTAAAGCTGACTCTTGGAAACCCCTCATCTTTTTCATATAAAAAATATATATTTTCATCAAATAAGCAATTGGTTGTAAAAGATCCTTTTTTAATTTTTTCATCGATTTATCTATCTCAATTCTATAAAATTATTATTACTGAAAGACCTTTAATTCCTTTAGCATCAAGTTTGAAAAGAATGAGATGGATTTTTTCTGAGGCAAATGAAGTTCGCAATGATCTAGAAACCATTGGAATAAATATTCGTTTGTTTGATACAGATCAAGACATTTCAAAAGAAGTTTTAGGTTGTATTCATTTTAATCAGATATTTATAAAAATATTACAAGAAATAAAGGAGAATGAAAAAATTCATATTTTTAATCAGAATAATTTTATAGAAAATCCTAAAAAGGAAATACAATATCTTTATTCATTTTTGAATGTAAGTGTGGATGATAGGATCACTGAGAAAGTTATTAATAAAACCATGAATAGCAAATCAGAGAACTATAAACCCAGAGAAAAAATGCAGCATGATAGACATTATAATAAATTATTTTCTAATAAGTACTATGCTGAAATTTTAACTAAAAAGGAAATTGAAATTTTGAAGAATTTTAATAATGAATTTTTTTTGTAGCGGAGGAGAGATTTGAACTCACGACCTTCGGATTATGATTCCGCTGCTCTAACCAACTGAGCTACTCCGCCATGTATAAAAATTAATTATTTTATTCATTATTTTAATCGTTTTTTTTAATATTATGCGCTTAAAAATAAGAGAAAGGTAAGAAAATGAGATATAATTCTAAAGAAGATTTTTTGAAAAAAGTTGGCGATAAATATTCGAATGAAAAAGAATTTATTCAAGCAGTTGATGAAGTTATTAACTCAATCTGGGATTTTACTCACCAAAATCATAATTATGTTGATTTAAATATTTTAGATAGAATAATTGTTCCTGAAAGAATAATAATTTTTAGGGTGCCTTGGATTGCTGATAATGGAGAAGTCAAAGTAAATACTGGTTATAGAATACAGTTTAGTTCAGCAATTGGTCCCTACAAAGGTGGACTGCGTTTTCATCCTTCTGTTAATCTAGGTGTATTAAAATTTTTAGCCTTTGAACAAATTTTTAAGAATAGCCTTACCGGTTTAAGTATGGGTGGAGGTAAAGGAGGATCCGATTTCGATCCTAAAGGAAAATCAGACAAAGAAATTATGGCCTTCTGCCAATCTTTTATGAATGAATTATATCGACATATAGGAAGTGATACAGATGTACCTGCAGGCGATATTGGTGTTGGCGGAAAAGAAATTGGTTATATGTTCGGGCAGTTCAAAAAATTGCAGAATAATTTTACTGGCGTTTTAACTGGTAAAAACCCATTATGGGGTGGAAGTTTACTTCGTCCTGAAGCTACTGGTTATGGTTTAGTATACTTTGTCGAAGAAATGCTATCCTATCATAAAAAGTCAATAAAAGGAATGACAGTTGCAATTTCTGGTTCAGGTAACGTTTCACAATATGCTTGTGAAAAAGTTATCGAGATGGGTGGAAAAGTTGTTACTTTATCAGATTCAAGTGGATACATATATGATCCTGAAGGGATTTCGCAAGATAAACTTCAATTTGTTATGAAACTTAAAGAAAGTCGCTCAGCCAGAATCTCTGAATATGCAGATAAATATAATGTAAAATTTGTTGAAGGTAAAAGACCTTGGGAAGTCAAGTGTGATATAGCGCTTCCATGTGCAACTCAAAACGAATTAGACGAGAATGATGCGAAGCAATTGACTTCTAATGGTTGTATTTTAGTCGCTGAAGGAGCCAATATGCCTTCAACAAAAGAAGCTGTTCATCACTTTATTAATAAGAAATTACTTTTCGGCCCTGGAAAAGCTGCTAATGCAGGTGGTGTAGCTGTTTCAGGAATAGAAATGAGTCAGAATAGTACAAGAGTTCCATTGAAAAGAGACGAAGTAGATGTTCTCCTTAAGTCTATTATGAAGAACATCCATAAAACATGTGTTCAGTATGGAAGTTTCAATGATTATGTTAATTATGTCGATGGAGCTAATATCGGAGGATTTGTCCGTGTGGCAGATTCAATGATTCATCAAGGTATTGTTTAAAAAATTGCGTATTTTTCATCGCTAAATGTTGCGAAAATTAAATACAATAGACTTTCAGTCTTCAAAATATAATTTTGGTAGGACAGTTCTAATTCGTTTCGATTTTAATGTTCCTATTGAAAACGAAAAAATTCTAGATGATTTTAGGATTCAACAATCAATTCCTACTATAAAGTTCTGCCTTGAACAAGGAGCTAAGTTAGTTCTAATGTCTCATCTAGGTCGACCAAATGGCAATGTGGATAAAAATTTATCTCTAATTCCTGTGGGAGAAAAATTAGCTGAGATTCTCGAAATGCCAATTAAATTTTCTCACGATTGCATTAGTGATGATGCGATTGAGGTTTCTAAAAGCTTGAAGGATGGTGAAATTCATCTTTTAGAAAATTTACGTTTTTACAAAGAAGAAGAATTAAATGACCCTAAGTTCGCTTCTAAATTATCTAGTCATGGTTCAATTTATATCAATGATGCATTTGGTCTAACACATCGTTTGCATGCATCAAATAGTTCAATTATTGATAATTTTAGTGTTAAAGGAATAGGTTTATTGATTGAAAAGGAATTACAATATTTATCAGACTCATTAAAAAATCCTCAAAAACCACTTACATTGATTATTGGTGGTGCTAAAATTGGTACTAAAATTGATATTATAAACAATTTTTTAGATATCGCGGACAATATTCTTATTGGTGGTGCTATGGCAAATACTTTTCTTTTTTCAAAAGGTAAAAATATTGGAAAATCTCTATTTGAAAAAGAGAAAGTTAAAAATGCACGAGAGATTTTAGAAAATGCAAAAAAATCAAAAACTAAAATTCATCTTCCATTAGACTCTACTGGATCAATGAATAATTTAATCAATAAAAAAGATTTTACCCTTAAAACTAACCAGATAGAAGACGATATGGTTATAGCTGATATCGGTCCAGAAACTGTTGAATTATATACATCAATAATTTCTACAAGTAAAACCGTTTTTTGGAACGGTACCATGGGCGTGTCTGAAATGAGTCATTTTTCTGAAGGAAATAATAAAATAATTGATTCAATTGTTTCGAGTAATTCTGAATCGATAATTGGAGGTGGAGATACAATCAGCTCAATCACTAATTATAATAAATCATTTTTAAGTGAATTTTCTCATATTTCTACTGGAGGTGGGGCTACATTACATCTTTTAGGTGGCAATAAACTACCTGCAATTGATATATTAGATAGAAAATGAAAAAAATAACAATAGCTCTAAATTGGAAATTATACTTAAATGAATTAGAATCAATTGAATTCGTTGAAAAAATAAATCATTCTAAAAATCAATTTGACCTTATTGATTTAGAAATTTATCCAAGCGCTACTGCAATTCGCTCAGTAAGGAATGTTTTAAATCACAGTTCAATTAAAATAGGTTTACAAGATTTTTCTATATTTGAAAAAGGAGCCTTTACTGGATCTTTATCTCTTTCATCTATTGAGGTTGATTGTTGTATTGTCGGACATTCTGAAAGAAGAGATTTTTACAATGAAAACGATAATTTAATTCTTAAAAAACTTCAGATAAGTAATGCAAAAAAAATTAGTACAATTCTTTGTGTTGGTGAAAGCCTTAATGAAAAAGAAGAAGGTCTTGGCAAAGAGAGAATCAAATCTCAGTTATCCATTTTAAAGAATTTAGATATTCAAATCCCTTTAACGATTGCTTATGAGCCTATTTGGGCAATCGGAACAGGAGAAGTTCCTTCAAAGGAATATATATCTGATATGCTTTCTACTATAAAAAGTGAATTAAATACTTTATATTCTCACGAAAAAAATTCAGCTTTAAGACTTTTTTATGGAGGATCTGTAGATGAAACAAATATCAGAAATCTATCAGATATTGTTCTTCTGGATGGCTTTTTAATTGGAAGCGCTGGATCAAAATTTGAAAAATTAATGAAAATGGTTAATAACCTAATATAATTGAGGATAAGATGGTGCAATTTCTAATAGTTTTACATACATTAGTTAGTATTTTACTGATTTTTGCTATTTTAATGCAATCTGGCCAAGGAGGATTAAACTCAATGCTTAGCGGAACGGCAAATTCAATGTTAGGTTCTACTGGAGCAAATGATTTTATGACCAAGTTAACAACCTGGTTGGGAATAACATTTATTGGATTAGCAATTTTAATTGGTGCTTTAAGCGGTAACAAAACCCTTAATTCTTCATCCATTATTCAGCAAGATGCTATTATTAATGCTGTAGAAAATGATATTGTTGAAGAATATGCTTTACCTTCTGGAAATTTAATTCCTGAAGCTACTTCAGATACTTCTACTGAATAGAAGTTTGAAGCCGAAGTGGTGGAATTGGTAGACACGCTAGCTTGAGGGGCTAGTGGAGGAAACTCTGTGTGGGTTCAAGTCCCGCCTTCGGCACAAAACATTAGTCTAAAAAAGAGGAACGAAATGAAAAAATACATATCACTTGTTTTATTAGCTTCACTAATTTTTTCACAAAATGCAGACAATCTTTTTAAAGAATCCCAAAATGCTTTATCAAATGGCGATTTAAAACTTGCAGGTGAAAAGATAAATGCAGCTATTAATGCGGACAATGGCAATCAGCTCTTTCGAGAAGAAGAAAAACGTTTAAGAGACTTAGTAAATAAACTAAATAATTCTAACCGTGCTCTTCAGGATGGGCGTTTCGATGATGCTATTTCTGGATTTTCTGACTTAACCAAAGATGTCCCTAAGCTTACAGATGCATTTTACGGTACTGGAAAAGCTTATGAAGGTAAATCTGATTATTCAATGGCTGTAAGTTTTTATAAGCAAGCTCTAAAAATTGATTCCAATCATGAGAATTCTAAAAAATCTATTTCTAATGTTGCTAAAAGACTTTATAACGAAGCGAATCAAGATTATAAAAATGGAAATCTTGAATCATCTATGAATAAATATAGTCAAGTCATCGATATAAATCCTAACCTATATCAAGCATATTTTCAAATGGGTGTTCTAAGTAAAAGAATGGGAAATATTTCTTCCGCTATAGATAATTATAAGAAAGCATTAGAGATCAAGAAAAACTTTGATAAAGGTTGGTATGCTTTAGGATTAGCTTACAAAGACTATGGAGATATTAATAATGCTAAAGATGCTTTTGAGCAAACAATTAAATTAAATAGCAAGTATGCTAAAGCTCATAAGAGTTTAGGAGAAATTTATCTTGATTCTGAAAACTTTGAAAATGCTTTAGCTAGTTTTCAAAATGCTATAAAACTTGAGTCTGATTTTTCTTCAGCTTATCATGCTATGGGTATTACATATTCAAAAATGGGTGATTATAAAAAATCTGTTGAAGCTTTAGAGCAAGCTGCGAATTTGGATAAGAAAGAATTTTTAATCTGGTTTGATCTTTCTGCTTCTTACAATGCGCTCAATATGTGTGATCAAGCTAAATCAGCCGCTCAAGAGTCGATTGATTTAAAGAAAAATTTTGGCGGGGGATGGTTTGAATTAGGCATCGCAGAATATTGTAATGGTTCTGGAAATAAGAACTTAGCAATCAATCACTTTGAAAAAGCACGAAATGATCGAGATTGGAGAAAAATGGCTGAATATGAAATCGACAGAGTTAGAAATCCACAAAAATACGATCAGTGATTAAAGCTGTTTTTTTTGATTTAGATAACACTCTTTTAGATTTTGTCAAAATGAAGAGTGAGGCAGTTAAAAATGCCTTAAATGCTATGGTTGAGTCTGGTTTGAATATTGATCCTGAAGCTTCTTTTAATAAAATACAATCTATTTATGAAAAAGAAGGATGGGAACATCAAGAAGTTTTTAACAAGTTTATTGAGAATGAAATTGGTTTTGTTGACAATAAGCATTTAGCTGCAGGAATTGTAGCATATAGAAGAGCTAAGGAAGCTAATTTAAAACCGTATCCGGGGGTTCGTAAAACTCTTCATCAATTAATGAAAATGGGAATAAAATTAGCAATCGTTACTGATGCTCCTAGCAGAGAAGCATGGATGAGAATACATCAAATGAATCTTCATCATATTTTTGATGAAGTAATTACCTTAGACGAATCTGGTGAAAGAAAACCATCTTCTAAACCTTTTGAAATTGCTTTACAAAATCTTGGTCTTACCAAAGATGAAGCAATTATGATTGGAGATTGGCCAGAAAGAGATATTGCTGGTGCAAATTCTGTTGGAATTAAATCGGTTTATGCTCGTTATGGATCCATGTTTGATATTGATAATTCAGGAGCAAATTGGGATGCAGATAATATCAATGAGTTAGTTAATATAATTAAATCAATTAATGAAAATTAAAATTCAATCTGGTATAGATATCGTTAAAATTTCCAGGATTCATTCTATTTTAAATTCTGAGAAGAGAAATAGATTCATTAAAAAAATATTTACTGACAATGAAGTTCTTCAATCAAAAGAAAAATCTGATGAAGTATTATATTTTTCAGGAAGATTTGCAGCAAAAGAGGCTCTTAAAAAAGCTTTAAGTAATACTTTTTATCCATCACATTTTAAGTCCTTTGAAATTTTAGCGGATAAGAACGGAAAACCTAATGTTTTCTTTGAAAAAAAAATTATTGAGAACACTAGCTTAAGCATTTCCCATGATGGGAACTATGCTGTTGCTCAATGCGTTTCAATCTTGTAAATGGATTATTTTGAAATAATTGGTCAAAACCACCTTCAGGGTGAACTTGAGATAAATGGTTCTAAAAATGCGGTCTTACCTTTAATAGCCGCTTCAATTTTGAATGAAAATTCAGTTCAAAAATTTACAAATGTTCCTCTTTTATCTGATACACTCACAATACTAAAACTTTTAGAAGAAATGGGATCGAGTGTTAAGAAAAGTGAAAATTCTATTTCAATCGATAATTCTACTTTAAAAAATCCATTTGCACCCTACGATTTAGTTAAAACTATGAGAGCTTCTTTTTATGTTCTTGGGCCTTTAATTGCTAAGTTTGGTAAGGCTCGTATTTCTGATCCAGGGGGCTGTTCTTGGGGACCTAGACCAATTGACTTTCATATTAAAGGACTAGAGCTTTTGGGAGTTGATTTTACAAGAGATCACGGTTATTTAAGTGCCTGTACTAAAGGATTAAAAGGCTCTAATATTTCATTTCCTAAAATTTCGGTCGGAGCAACAGGAAACGTGGTTATGGCAGCTGTCTTAGCTAAGGGAAAAACAAAGATTTTTAACGCATCTTCAGAGCCTGAAATTCAACAGCTCTGCAATTATTTAAATATAATGGGCGCTCAAATTTCTGGTATCGGATCTAATGAGCTTGTTATTGAAGGAGTGAGTTCATTAACAACAAATAAACCCATCGAAGTTATTCCTGATAGAATTGAGGCAGGAACCTTCTTAATCGCTGCAGCTGCTGTCGGTGGTGAAGTTCAATTAAGTAATGTTGTAGTTGATCATCTATCAATGGTTATTCAAAAATTACGTGAAACAAATGTTCAGATAGAAACTAACTCTTCCTCAGTTAGAATTAAATCAAATCCAAGCACCTTAAAAGCGGTAGATTTAGAAACAAGTGAATATCCTGGGTTTCCTACAGATTTGCAGGCTCAATGGATGAGTTTAATGAGTGTTGTGAATGGTGATTCTAAACTTAAAGAGAATATTTATTTTGACCGCTTTACTCATGTTCCTGAATTAAATCGTTTGGGATGTAATATAAGTCTTAATAAAAATACTGCTAAAATTAAAGGGCAGTCTTATTTATCAGGTGCTCAGATAATGTCAACGGATATTCGAGCTTCAGCGGCATTAATTATCGCAGCTTTATGCGCTGAAGGTTTGTCTAGAATTGATCGTATCTACCATATCGATCGTGGATATTATAAAATTGAAGATAAATTGTCAAAAATAGGTGCAAATATTGTTCGAAAAAAAACATGATTTTAGATTGTTTTTGATTTAATTGTTTATAGATTTACAAAAAATGAAAATTGTTATTATTGGAGCAGGTGAAGTCGGATTTCATCTTGCAAAATCATTATCAGAGTTAGATTATGACATCTCTGTCATAGATATAGATCCCATAAAATGTGCAAAAGCAAATGAACATTTGGATGTCAGCGTGATTCAAGGAAATGGGTCTGATTTAGAAATTCTTAAACAAGCCAACGTTCAAGAAGCCGATTATGTTATGTGCATAACTAATAAAGATGAAACAAATCTTATTTCTGCTTTACAATCGCATTCTTTAGGTGGTAAGAAAATTGTCGCAAGATTAAGAGATTTTGACTACGATCAAAATGGAAATGCAATGTTCCCTGAGAGATTTGGTGTAGATATTGTTATTCATCCTGAAAAAACGTTAGCGAATGAAATCATTCGTCTAGTTAGACATCCTTATGCAGATAAATTTTATGAATTTGAAGGTGGCAAGGCAGTTCTTTTTTCCAAAAAAATAACATATAAATCAACAATTGTTGGAATGACAATCGCTGAATTTCATGAATCATGCAAAGATTTTAAATCTTTAGTTGTTTCTGTTGTTAGGAATGAGAAAGTATTAATTCCTCCTTCAACATTTAAGTTTGAACCTGATGATTCAGTTTATTTCTTTATCAAGAAAGGAAATCTTGATAAACTTCTAAATAGATTGGGAATTGAAGAATCCTCTTCAAAACGAATCATGATAGCTGGTGCAAGTAAAATTGGAAGATTAGTTGCTAAAGAATTAGAAAAAGAAATGTCAGTTAGATTAGTAGAATCGAATAAAGAAAAAGCATCTCAAGTAGCAACTCTTATGGAAAGCGCAATGATTTTAAATGCTGATGCTACAGACATTGAGTTTTTAAAAAGTGAAAATATCAGTGAGATTGATTCATATATTGCTGTCACTGAAGATCAACAATTAAATCTTTTAGGTGGGATTATTGCTAAACAACTTAAAGCTAAAAACTCAATTATTCACGTTACTAACCCTGATTTTGTTCGCAATATGTCAGACTTGGGTATTGGATCAATTATTAGTAAAAATACTACCACTGTAAATACTATTTTAAAAGATATAAGAATTGATCATAAAGAAAATGTTATCCAAATGTTTAGTACATTGAACATGGAAGCTATTCAGATTAATGCAAAATCTAACTCAAAAGCTGTACGACTTCCAATTGCCAACCTCAATCTTCCTAATGGATGTATCATTGCTCTTGTAAATCATAATGGACATTTAGTAATTCCATCCGGTGATCATCAAATACTTGATGATGACTCAGTGTTAATTTTTTGTAATCCTTCTATGGTCAAAGAAATAACCAAAATCTTTGAACAAGAATAATGAGCTTAAGACCTACTTTTAGATTTCTATCAATCTTAATAATGTTTTTATCATTAAGCCTTTTAATTCCAGGTTTAATCGAATATTTTCAAACTAAAAGAGTCTTTTTTTTTGAGATTAGTTTTTTTTCAATTTTAGCAGTTTTGCCGATCTGGTTCTTTACTCGTCATGCTAAATCCTTAACCAATAAAGATATTTTTTTGGTGATTGTTTCTAGTTGGATTGTGACTGGAGTTTTTAGTTCGATTCCTTTTTACTTATCTGGACAATTTGGGAGTTTTACAAACGCTCTTTTTGAAGCTATTTCAGGAGTAACAACCACTGGATCAACGGTATTAACAGATATTGAGTCTTTATCAAAAGGCTTGCTTTTTTGGCGTTCATTTATTCAATGGATTGGAGGGTTAGGTATAATAGTTTTTACCATCTCACTTTTGCCTTTGATTGGAGTATCAGGAGAAAAGCTTTTCAATGTTGAATTTCCAGGACCATCCAGTCAGAAAAAAATTGCTCCGAGAGTTAAAGATACCTCTCGATTATTAATAAAATTTTATCTTGGATTTACTTTTGCTGAGTTTACATTACTTTTATATCGTTTACCTGCCTTTGATGCAATTTGTCATGCTTTAACGACAATGCCAACTGGAGGCTTTTCTACATTTAATACGAGCTTAAATGAACAAGATTTTTATGTTAAAAGTATTATTCTAATCTTCATGATTTTAGGTGGCACGAATTATGCTCTACATTTTAGGGCGCAGAGGTATGGATTGACTTCATACTTTAAGGATCGCGAGTTCTTGTATTACATCTTTGTTATTGCTATTTCATCGGCCTCTTTGATTTTTTTAGCATCACTCTTAGGCATGGAAAAAGATCGATTTATCGACTCTACTTTTCAAGCTGTTTCAATTCTAACTACAACAGGTTTTACTTCTGTTAACTATAGTGAATGGAATTTATTTGTCGGTCAGTTTATTCTATTAATTTTAATGTTTTTTGGTGCTATGGGTGGTTCTACCAGTGGTGGAATGAAGATCATTCGATTAGTCGCAATAGTAAAATATGCGGGCATGGAATTAAAACGTGCTCTGCATGATAAAGCAATTATACCAATACGCATTGGGCATAATCTTATTCCAGATGAAGTAATTCGTAAAACTTTAGCTTTTTCGTTGTTTTACTTTTTATTCTTTTTCTTTTCAACAGTCTTTTTTGTTTTTCTCGGATATAATTTAGAATCGGCTATTGGAATTTCAGCATCTTCTATTGGTAATATTGGTCCATCGATTGGAGAGATTGGTGCTATGGGTAGTTATAATACTTTACCAATATTAGGTAAGTATTTAATGATGTTTGGAATGCTTTTAGGGAGGTTAGAGATTTTTGCAATTTTAATCCTTTTTACTAAAACATTCTGGAGATCATAATTAATCTCCAGAACAAACTGTCAGCTTTGCCAAATCAACCTGGTATTTATCAATTCTTTGATGACAATGGAAAAATAATATACATTGGAAAAGCCAAAAACCTACGCAATCGAGTTAAATCCTATTTTTTGAATAAAGCTTATCGAACTCCTAAAGAGCAATCTTTGGTTAAGAGAATTTCTAATTTAGAATGGATTATTTGTCAGGATGAAGCCGATGCGTTTATTACAGAAGCCACCTTAATAAAAAAACATAAACCTAAATATAACATTCAACTCAAAGATGATAAGTCATTTCCCTATATCAAGATTTCCAAGGAACACTTTCCAAAAATTTCCTTAACCAGAAGGGTTTTAAAGGACCAAGCTAAGTATTTTGGTCCCTATACTGATGTCAAGTCTATGCGTCGTCTTCTGGACGTTATCTACAAAGCTTTTCCTTTAAGAAATTGTTATATCCAACTTTCAGAAATTGATCCAAAAACCGGCAAAAATCGTATTCAAAAAAATGGTCTTGGGATTCAGACCATTACTGAAGACCAGTACCATGAAATGATTCAGGATATGATTCTCTTTTTAAAGGGTGATACTAAAATCATTGAAAAGAAACTTAAAAATCAAATGCAATTTTTTTCTGAGAAGAAAATGTATGAAGATGCTGCAAGATTAAGAGATCAATTAAAGTCCATCAGTAACTTTATTACTGGCCAGCGAAAATTAGAAGCCGATCTATCCAATCGAGATGTTATCGGATATGAACGAGAAAATAAACACATTGTAGTTGTGATCTTACGTATTCGAGAAGGTCGAATCATGAGTCGTGAAAAATTTTCAATCGATTCGGAAGATTCTCTGGCAGAAATCTTAAGAACGGTCATCATTAATTTCTACATGAATGCTGCTTATATCCCTGGGAAAATTTATCTGCCTGAGTTACCTGAAGATGGGACTGATTTAACCCAATGGTTAATGGAAAAATCTTCAGCTAAAATCGAATTGTTAATCCCTCAAAGAGGCAATAAATTTCAGGAATTACGCCTGGCAAATCGAAACGCCAAATTATTACTAAATGAATGGTTGCTAAACTTACAAAAGCGTCGAGACCATTTACCGAAACTTTTAGGCGAATTACAAGAGCTGTTGTCTTTAGAAAAACCTCCAAGAATCATCGAAGGCTTTGATATATCTCATCTAGGAGGAACCAATACTGTAGCCTCAATGGTTGTTTTCAAGGATGGAAAACCGTTAAAAAGAGGGTACCGAAAGTTTAATATTCATGTCAAACAAATTGACGATTTTGAATCCATGAAAGAAGTAGTTTATCGACGATATAAACGTCAAATTGATGAAGGGGGTATTTTACCAGATTTGATTTTAATCGATGGTGGAAAAGGACAATTATCCTCCGCAGTAGAATCCTTAACGCAATTAAACCTTTCTATACCTATCATTGCACTTGCTAAACGATTGGAAGAAGTATTTTTACCTAATCAATCAGAACCCATAATCATTGCCAAAAATTCACCTGCCTTGAACTTATTAAAACAATTAAGAGATGAAGCTCATCGGTTTGCGATTACTTTTCAAAAACAAAAACGCACCAAAGGTATTGCAAAATCAATTTTTGAAGATATCCCGGGAGTTGGTACCAAAACAGTAGAGAAAATTTATAAAAGGTTTCCTGATATAAAGGAAATGAAAGATTTATCAGATCAAGCCTTAGCTTTTAAGCTGGGAATTAGTATTATGATTGCAAGGAAAATTAAAGATTCTTTTTAAGCCAATCATCAGATAAAAACTTGCGCATATAATTTCTTATACTGTCAGGTAGTATTACTAAACAATTATCGCCTTTTTTTAATGATTTCGCAGCTTGAAGAGCACCATAGGTTGCAGATCCACAAGATCCTCCGACTAACAAACCTTCTTCCTTGATTAATCTTCTCGCAGTTTCAAAAGAATTTTTATCATCAACTTTGACAAAACGATCTACAATATTAGGATCAAAAGTCCCTGGGAAGTGGTCATAACCGATTCCCTCCACTAAATATGATTTTATTTCTGTTCCACCGCCTAAAATAGATCCATAAGGATCAACTCCGATTATTTGAATGTTTGGAATTCTTTCTTTCAGTTTTCTTCCAACTCCTGAAATAGTTCCTCCTGTACCAATGCCCATCACCACCATATGCAAATCATTGCCGAAATCGTTTAAAATTTCTTCAGCGGTTTGTTGATAATGAATTAGAGGATTGCATGGATTTTCCCATTGATCGAGTAAATAACTATTAGGTATTTCATTAATCATGCGCTTAGCCACATTGTAATTTCCGTTGGGGTCATCATGGCCAGCCTCTGTAGGGGTTCGAACAATTTCTGCTCCTAATGCTTTTAAGGTTAATTCTTTTTCCATGCTCATTTTTTCAGGCATGACAATGATTAAGCGATATCCTTTGACAGCAGCAGCTAAGGCTAGACCAATTCCTGTATTGCCAGAGGTAGGCTCAATCAAAGTGTCTCCCGGTTTTATTTTTCCTGCTTTTTCTGCACAATCGATCATGCAAAGTGCAGTACGATCTTTTACTGAACCTCCAGGATTAAACATTTCGAGCTTGACAAACATGTTGCATTGGAGGTCTGAACCCACAGAATTCAATTGGACGATTGGAGTTTTTCCAATGGTTTCAAGAACATTTTTATAAATCATATAGATATTTTAAAAAAAAAGGGGCATAAAGCCCCTCTTTTTTTCTTTTTAGAAAGATTTATTTAATGGAAATCTTTCTTCCAAGTGCAGTTTTGTTTTTAGGTAGGACCACATTTAACACCCCATTTTCGATTTTCGCAGAAATCTTTTCAGTTTCTACGTTCGATGGAACAGAAAATATTCTTTCCATTTTATCATATTGATAGGAGTCATATTCACTGGATTTTCTTTGTCCTGAAATTCTTAAACGATTGTTTTCATAAGAAACGTCGATATCATCTTTCGACATTCCAGGAACATCGATTGTTAAATAGTACTCTTTATCATTTTCAGAATAGTTTGAATATTGATCAGTATTTAAAAGTGAAAAGCGAGGGTGGACAGCAATATCACTAAAAAATTGATCAATAATATTATCAAAACTATCTATTTGATTGTTAAATGGTCTCCATTTTATTAAACTCATTTTATTCTCCTATTTAAGTAGTTTATATTTACACTTAATATAGATGCAAAATTGATACCAGAATGAATAGTCTGAAAATTTTGCAGAGAATTTTATAAAGTAATGTTAAAAAGTCATTCAGATGTGAAAAAAAGTGTAAAAATGGCAGAGTATGATAGATTATAAAAAGATTTTATCTCAAGTTAGCTCTGAGGCAGATTGGGTAGGCATTCGCTATGTGGAAGAGTCTCAAAATATTTTAACAGCTAAAAAAGAGAAATTAGACGGGATTCAGCGTAATTCTACCAAAGGAGTCATGATTGACGTTTTGGTCAATGGACAGTTTTCTTATTTTGCCACCTCATTTTTAGATGACCAATATATTATCAAATGCATCAATCAAGCAGTTCAAAATGCAAAACGTGCATCCGAATTCTCAATTTATAAATTCGATCAGTCAACAGTGCGTCAAGGGTTTACTGGAACCTATAATACTAAACTAATTTCCTCAGTATCTGATTTGAGTTTTAATGATATTAAAGACTTAGCATTATTGGGTTCATCTACAATGTTAAAACCTAGTTCAATTGTACATTCAGCGGCTACTATTGAATTGATAGAAAGAAGAACAGAGATTTTTAGTACTTCTGGTGCCGATATTGAGCAAAAGATGGATATAGTGTTAGTAGAACTTTCTGCTACCGCTCAAAATCAACAAGATTCTCAAACTCGAACTAATCATGGGATGAGAGGACATTGTTTTCAAGCAGGAGCAGAGTTTATAGAAAAGTATGATATTGAAACTGAAGCTTCCCAAATTGCTACTCAGGCTATTGAATTAGTGGAAGCAGACCAATGTCCAACTGAAGTGACGGATTTAGTTTTAGCTCCTGATCAGATGATGTTACAGATTCATGAAAGTGTAGGCCATCCTCTTGAGCTGGATCGTATTTTAGGAGATGAGCGAAATTTTGCAGGTTCGAGCTTTGTTCATTTAGAGGATTTTGGCAGCTTACAATATGGATCCAAATTAATGAATATTGTTTTTGATCCTACAGTCGATAATCAACTTGCCTCTTATAATTTTGATGATGGGGGAATGCCAGCAACTAAGGAATATTTAATTCAAGATGGTGTTTTAGTTAGAGGGTTAGGGGGAATTGAAAGCCAAATTCGTTCAGGCGTTCCTGGAGTTTCTAACTTAAGAGCTTCTTCTTGGAACCGAATTCCCATTGATCGAATGGCGAATATCAATTTGGAACCTGGACAATCCACTCGTGATGAAATTATTAAAAGTGTAGAACGTGGAGTATATATGGAAAGTAATCGTTCATGGTCTATTGATGACTATCGAAATAAATTTCAATTTGGATGTGAATATGGACGAATGATTGAAAATGGACAATTAACTAAGGTAGTGAAAAACCCTAATTACCGAGGAATTACCAATCCTTTTTGGCGCAGTTTATCAATGGTTGGAAATCAAGATACTTTTGAAGTGTTTGGTACGCCTAATTGTGGAAAGGGTGAACCGAATCAAGTTGAGAGAGTAGGACACGCTTCTCCACTTTGTAAATTTGATCAAATTCAGGTATTCGGAGGAGTGTAAAACGATGAAACAGTCTATTTTTCAATCTATTTGCACATCAGTTTTCTCAATCCTAAATGAAAATGAGCAACTAACAATTTATCTTGAAGGAGAGGATTCACAATACTTTCGATTCAATGATTCAAAATTAAGACAAACCGGAATTATTGAGGACTATAACGTTGTTCTTTCCTTATATCATGGAAAAAAGTCTTTACAGGCAAATACGACTATATCAATTGATATTGATTTTTCAATACAGAACTTAACTAAAGAAATCGAAAATCTTCGTGGTCCTTTATCAGTTATTCCAGAAAATCAATTTACTAGATTTCCAAAAGCATTTTCAAATGTAATTACCCATGAAAAAGGTAATTTACCTGATAGGGAGGAAATTCTTAAAAGTATTATGAAAATTATCTCCAGAAATTTATTGACTGGAGTTTGGACATCGGGAAAAATTTTTAGAGGTTTTTGTAGTTCAAATGGAACACATCATTGGTTTGAGAAAGATTCATTTATTTTTGATTATTCCTTAATTGATCGTAAAGAAAACATGGTGAAGGTTTTATATTCAGGCTCTCATTGGAGTCGTGTAGATTTTGAGACAGATTTTGATCAAGCCTGTGACCGTTTACAATTAATGAATAAACCTAAAAAAGAACTACAACCAGGAAAATATCGTGTTTGGTTTGAACCACATGCTGTAGCAGATTTTGTAGATATGTTTAACTGGCATGGAGCTGGAGAATCATACTTTCAGAATGGTTCAAGCTGTCTACTCAAAATGCGATCTCAAAATATTCATCTCTCGCCTAAATTCACTTTACTGGAATCATTCAAAAAAAATCCAACCGCAAGTTTTAATTCTCGAGGAGAAATATCAGAAGAAATTCCCTTAATTTCTAAGGGTAAACTTGTTAATACCTTAATCAATGATAAGTCTGCCGTAGAGTATAATTTGGTCTCAAATTTTGCTGAAGAAACGAATTCTTGGGGAATGGGTGAATTTATGAGGGCTCCATATATGACAGAAGGAGATTTAAAAGAAGAAGATATCCTAAAGCGACTGGATACAGGAATTTTTATTTCTAACATTCATTATTTGAACTGGAGTGATGCTTTAGGTGGAAGAATAACAGGATTAACGCGATATGCGTGTTATTGGGTAGAAAAGGGGAAGCTCATTGCTCCAATTAAAACAATGCGATTTGATGATTCCTTTTATAATTTTTTTGGAAAAAATTTGGAGGCGGTAGGAAGAAAGGTTTTGGCGCGTCCGGTTATAGAGACATACGATGGAAGAAATCCTGGATCAACCATGTGTCCAGGAGTACTAGTTAATAATTTTGAATTAACTCTCTAATTATCTATATTTCCTCGTTAAAATTGAATAGATTTGGCGTCGTACCCAAGTGGTCTAAGGGATCGGTTTGCAAAACCGCTATTCGTCGGTTCGAATCCGACCGACGCCTCAAAGTGTTGCCCGGGTGGTGAAATTGGTAGACACAAGGGACTTAAAATCCCTCGGAGATAAACCTCCGTGCCGGTTCAAGTCCGGCCCCGGGCACAAAAAGATTGTGCAAATAAACAATAGAGACTAATTTCGACTATTATATGCGGCCGTTCCATTTAGCTTTTCCTGTTACTGACTTAAAAAAAACCAAAGACTTTTATACTAGTATACTCAATTGTCAACTCGGTCGTTCATCTGATCAATGGATTGATTTTAACCTTTATGGACATCAAGTAGTTGCCCATCTTGTAGATAATTCAAACCATGTTTCAGCCAATCACGTAGATGGCGATGAAGTTCCTGCTAGTCATTTTGGAGTTATTCTAGAGTTGTCGCAATGGGAAGAGTTGAAAAATCGATTAATACAGTATGGAATTCAATTTATAATTGAACCTAAGATTCGATTCCAAGGAGAAGCAGGAGAACAAGCAACAATGTTTTTCTTAGATCCTTGTGGAAATGCTTTAGAGTTCAAAGCTTTCAAAAATGATAACCAAATTTTTGCTACTGATGAATAATCAAGCTTTAGAACATTGGACACCAGAAATTGGAAGTTCTTTTTGGGCAATGGGGTTAGGATTATCTTTACTTTTCGTAATTGCAATTTTCTTTATAGGATCTAAAATTTCTTCTAAAAATAGAGAATATCTTTTGTATGCGATGGGATCCTATCAGCTCATTGAAGTTTCTTTTTTTCAGCTGTATCGTCTTTTTACAGGAGAATATGTGATTGCTACCCATCTTCCGTTGCAGTTGTGTTCCATTTCTGGAATTCTGGCCGGTTTAGTGGTTTTTTACCGTAAACAACTTATTTTTGAATTTCTATTTTTCTATGGGTTAGCCGGTTTTATCCATTCTATTTTGACACCTGAGTTTACTGTTGGAATCCCCTCAGCGGTTGAAATTTTTAATTATTATATGGGACACTCCATGTTATTCGTTGTTCCTATTTGGTTAATGCGATTCAATGGAATGCGTCTTACTATCCATTCCTGGTGGAGAAGTTTTTTATATCTTCAATTGATCATTGTGATTGTAAGTCAATTAAATGCCATCATTGGTAATGGGGCAAATTATATGTATTTAGCTAAAGCTCCATTAGCAGATAGCGTTTTTGTCGTTGGAGGGGCAAGTTATATATTAGTTCTGAACCTTGCAGCTCTATTACATTTTATTGTATTCTATTACGTTGCTTTGAAAGTTTTCAAATAAGAATGTCACTTTTAATCAC
>sequence08
CTAGGAGTAAATGTTGGAGACAAACTCAAGATATATAATCAACAAATATCTGTTTCTAATCTGGTAATCCCTACATATGATGAAATTATGGTTACGGGAATTTTCTCTAATAAAGTATTAAAAGCAAACTCGTCTATTATTTTTAAAACATTTAAAAATGAATTAAAGAATATCAATCATTTGGAAATTTTAGGAGATTTTAATCATGATATTTTTCCAGAAAAAATTCTTTCATGGAAAGAAAAAAATCGCCAGTTATTTGAAGCGACAGAATTAGAAAAATTAATAACTTTTATATCACTTTTACTCATTATTATTATTTCATCTTTTAGTTTGAGCGCAACAATTATTCAAATTATTTCAAATAAAACAAAATCCATTACCATTTTACGTGTCTTAGGATTAAGTCAAAGTGGATTTAATCGAATATTTTTTATTTATGGATATTTGATTTCAGTCATATCTGTTTTTTGCGGAATGGTTATTTCTTGCCTAATTATCTTTTTACAAAATTCTTTTGGTTTGATAAAAATTGAAAAGTCAATTTATTTTGTTGATACACTTCCTATGGCTATCTCTATGAAAGAAATTTTAATCATTTTTTTAGTCTCTTTATTATTAATTGGAATATTTATATTGTTTCCTTTGAAAAGCTTGAAGAGATTTAAAATTATCAAAACATTACAAAATAACTGATGATATTAGAATTACAAAAAATAGAAAAATCTTTTTCTGATGGTGAGAATCAATTAAATGTTCTCAAAGGTATAAATTTGACAGTCAATAGGGGTGACATTGTGACTATAAAAGGACCCTCTGGTTCAGGAAAGTCAACTTTGCTAAATATTATGGGAGCAATTGATTTTGCAGATTCTGGTTCAATATTTTTCAATAATAATAAAATAAGTCTTGGCAGCGATTTAGAAAAATTTAGAAATGAAAATCTTGGGTTTGTTTTTCAATTTCATCATTTAATACCAGAGCTAAATGTGGAAGAAAATGTTAAACTGCCTTTTTTTGTAAGTAATACTAAAGTTGATACCAAATCAATTGACGAACTTTTTATTTTTTTTGATTTAGATAGTAGAAAAAAATCCTTCCCAAATAATCTTTCTGGGGGAGAAAAGCAAAGAGTAGCTATCATGAGATCCTTTGTTAAAAACCCATCTTTAATTTTAGCTGATGAGCCAACAGGTAGCTTAGATAATAAGCAAGTAATAAACACAATAGAGTTATTTAAGAAAATGAATTCTCAATTTCAACAGTCCATTGTTATTACCACTCATGATGAAAGAGTATTCAATATTGGTACTAAAAAGTTCTCGTTAAACAATGGTGTTCTATCTAAAGTATGACTAATTGTCATAAAAATGTACTTTGTGACATAATTTTTTAGTTGGCATGAAAATTGCTACATTATCTAATATAAATAATATTTTAAAATTTAGGAGATATCATGGGTAAAATTATTGGAATAGACTTGGGTACAACAAATTCATGTGTTGCTGTTATGGAGGGTGGTGAGCCAACTGTAATTACTAGCACTGAAGGAGGTAGAACTACACCTTCTGTTATTGGTTTTACAAAGGATGGAGAAAGATTAGTAGGAGAACCTGCAAAAAGACAGGCCGTTACTAATCCAAGTAACACGATTTATTCAATAAAAAGATTTATGGGCAGAACACCATCAGAAATTGAACAAGATATTAAAGAAGTCCCCTACAAAGTTTCTGTTGAGAAGTCTAAGATTCAAGTCGAAGTAGCTGGAAATAAATATTTACCTCAAGAAATCAGCGCCATGGTTCTTCAAAAAATGAAACAAATGGCTGAAAAGTATTTAGGGGCCACCGTCACTGATGCCGTAATCACAGTGCCTGCATATTTTAACGATTCTCAAAGAAAAGCTACTAAAGATGCGGGAGCTATTGCAGGCCTTAATGTTAAAAGAATTATTAATGAGCCAACTGCAGCATCTTTAGCTTATGGATTTGACAAGAAAAAAGATGAAAAAATAGCTGTTTTTGATCTTGGTGGCGGAACTTTTGATATTTCGATCTTAGATATTATGAATGATGAGGGGCAAAGTATTGAAGTTAATGCTACAAATGGAGATGGAAGACTTGGTGGTGATGACTTCGATCAAAAAATTGTTGATTGGCTAGCTAATGAATTTAAAAAAGCTGAAGGAATTGATTTAAGAAAAGATCCCATGGCCTTACAAAGATTGAAGGAAGCATCTGAGAATGCTAAGAAAGAATTATCATCCTCAAAACAAACCGAAATTAATCTTCCTTTCATTACTGCTGATTCTTCTGGTCCTAAACATTTAAATATGACCCTAACTAGAGCAAATTTTGAAAATTTAGTTTCAGATCTTATCGAGAGAGTAGTTGCTCCTTGTAAGCAAGCATTGAAGGATGCCAAGCTTACTCCTTCTGATATTAAGGAAGTAATCTTAGTTGGTGGTTCAACAAGAATTCCAGCTATTCAAGAAAAAGTAAAAGAAATTTTTGGAAAAGAACCCAATCAAAGTGTGAATCCTGATGAGGTGGTTGCACTTGGCGCTGCAATACAGGGTGGTGTACTATCTGGTGACGTAGATGATGTTTTATTGCTGGACGTAACTCCACTTACATTGGGAATCGAAACAATGGGTGGAATTGCTACTCCATTGATTGAGAAAAATACAACTATCCCAACTCAAAAATCACAAATATTTTCAACAGCAGCAGATAACCAGCCCATGGTTGAAATTCATGTAGTTCAGGGAGAAAGACAACTTGCTAATGATAATAAAAGTTTAGGACGTTTCCATCTAGACGGAATTCCTCCAGCACCAAGAGGTACCCCTCAAATTGAAGTTTCTTTTGATTTAGATGCTGATGGGATTTTAAATGTAAAGGCTTCTGATAAAGCTACTGGTAAAGAACAGAGTATTCGAATAGAGGCGCAAAGCGGTTTATCAGATCAAGAAATTGAAAAAATGATAAACGATGCGAAGAAAAATGAATCAGAAGATAAAGCTCGAAAAGAGGAAATAGAGACTAAAAATCAGGCTGAACAATTGGTTTATCAAACGGAAAAACAAATGAAAGATCTCGAAGAGAAATTATCTGATGATGATAAAAAAGAGCTAACAGAAAGTCTTGATAAATTAAAAGAAGCGAATAAATCTTCAAATATTTCTGATATCAAGAACGCTATGGATAATTTGAACTCTGTTTGGAATTCAAAAGCTTCATCAATGTATGATGCATCTAAATCTTCAAATAAAAATCAACCCGAAAATGATTCAGGTTCCAACAAAGATAAAGATGATAAAAAAATAGAAGATGCTGATTTTGAAGTTGTTGATGAATAAATAGATTTATTAAATAGTTTCAAATTCTTAGCTTTATTTTAATGAGGAACGTATTTATTAAATTTTTAAAATCAATTTTTGCAATTTCAATCAGTATTTTAGTTTTTTTCATTCTGTCATTTATTGCACTTTATATTTATTTAGGCAAAGGCTTAACTATTCCTATCGATCAATCGAATGACTATATTCAGAAAAACCTAGATAAATATGGTATTAACTTTAATCCCAGTTCAGAATTATTCCTCTCTACTAAGTTTAATGAGATTGAAGTGTATCTTTCATTGTATGATTTTGTTCTTTCTAGCGATAATAAGGAAAGCATAAAAGCTGAAAAACTAAACCTATCTACACAATTTCCTTTAATTAGTTTCTATAATCTTGCTTTAGATTATTTTTCAGAAAATAATTCTGAAATACACTTTATTTTTCCTTTAATTATAAACATTAATAATGCAATTGTAGACATAGCAGCATTGCCAAAATCAAAAAATGATGTTGAGATTGGAGAAAAGAATGAAGAGTTAATTAATGCCAAAGTAATTGTTAAAAAAAGTAAACTTTATGACAATGAATTATTTTTGGGAAATTTTGATGCTTCATTAGGAATTAATATTTTTGAAAAAAATTCAAAAATATCATCTTTTTCTCTAAATGTAAATTCTGGTGATACTTTTGATACATCTTATCTTTTAAGATTTTTTCCAGATGTAAAGAGATTAAGCTCAATCAATCAAGTGGTACAATATGATTTAAAAATTCAGGATTCAAATTTGAATGATAGTATAGATTCTAGAACTATAAATGGAAATATAAATATTAATCATTCAGAAATGGAGTTGGTTAAATTCCCTGCTCAATTAAAACCAGAAGTAATTCGGAACTTAAACATTAGTTTAAACATTAAAGATAGTATTGGTTCAATTAATCTAGTTGGAACAGTTACTAATCCAAAACAGAGAATTAAGTTACAAAAAGAAGCCAATTTGCAAGTTTCAGGTAAAATTATCTTGAAAGATTTAGAAAATCCGGAACTTGATTTATTTGTTAATGGAAGTGATATATATTTTGCTAAATTAGACAACGAAAATTTAAATGGAGTATCTGATTTAAAAATTTCTATTACGGGTCAAGAAACCTTAAAGCTTGATGGCGATATTAGAATCAAAAAAAGCAATGGATTTTTAACGCCATTAAAAGATACGAAACTTAATGTTACTCATCAATTGAGGGAAAAAAATGAACAAAAATGATTTAAAAAATTTTAATAAAAAAATCGAAGAGAAATCACAATTTATTAAAGAAATCAAGACTCAGATTTCTTCAATTATTGTTGGCCAGGAAGATCTTATTAATAAAATTCTTATTTCAGTTGTATCAAATGGTCACATTTTATTAGAAGGGGTACCTGGTCTAGCTAAAACCTTAACTATTAATACTTTTGCTAAACTTATAAATGCCAATTTTAAAAGAATTCAGTTTACACCAGATATGTTACCAGCAGATTTGATTGGTACGCTTATTTATAATCAAAAAACTGGAGAGTTTAATACAAAAAAAGGTCCAATATTTTCTAACATCATCCTTGCAGATGAAATTAATCGAGCTCCCTCTAAGGTCCAAAGTGCTCTTTTAGAGTCAATGCAGGAAAAACAAGTTACCATTGGTGAAACCACTTATAAGCTTGATTTACCTTTCGTTGTATTGGCTACTCAAAATCCAATTGAGCAAGAGGGGACCTACCCTTTACCTGAGGCCCAAATTGATAGATTTATGATGAAAACAATTATTGATTATCCATCATATGATAATGAAAAGGAAATCATTAGAAGAGTAGCTAAAACTAATTTGGATGTTGAGATTAAGCCAATAATTAAAGCAAAACAAATTTTAGATTCACAAGTAATCATAAACGATATCTACGTAGATTCTTCTATAGAGGAATATATTTTAAACCTTGTTTTTGCAACTAGAAATCCTAAAAAATATAATCTTGGGCATTTAAAAGATTATATAACCTTTGGAGGTTCTCCCAGAGCATCAATTAATATGGTTTTAGCTTCAAAAGCCAATGCTTTTATTAATGGAAGGGGGTTTGTAATTCCTGAAGATGTTCGTTATATTGCTCCAGATATACTAAGACATAGAATCTTAGTTTCGTATGAAGCCGAAGCAGAAGATATATCATCTGATAGTATAATAAATGAAATATTGAAAGAGATTCCAGTTCCTTAGATATGTCAAGTGAATTGCTTAAGAAGGTCAAACAAATTGAAATTAGAACTAAGAATTTAGTTAATGACTTTTTTGGCGGAGATTATCATTCCAACTTTAAAGGAAGAGGTATGACATTTTCTGAGGTACGAGAATATCAGCATGGAGATGATATTCGTTTTATTGATTGGAATGTAACTGCTCGATCTGAATCTCCATATATAAAGATTTTTGAAGAAGAAAGAGAACTAACGGCTATAATAGCCGTTGATGTAAGTAGTTCCGGTTTATTTGGTTCAAATGCTAAACTCAAGAGAGATCTCTATATTGAGATTGCAGCTACTCTTGGATTTTCTGCTATTAAGAATAATGATAAGGTTGGACTGTTTTTGTTTAGTGATAAGGTTGAAAAGTTTATTCCTCCCAAAAAAGGTAAATCGCATATTCTCAGGATTATAACTGAGCTTCTAAATTTTGATTTTGAAACCCAAAAGAGAAAAACTTCTGTTAAAAATGGTTTAAATTTTTTAGGAAAAATTTCTAAAAAGAAAAATATTATTTTTTTACTCTCTGATTTTATGGACAGTAATTATTGGGATGAATTTAAGCTTTTAAATTATAATCATGACCTAATTCCTATTCAAATTTTTGATGGATTCGAGAAAAATATTCCTAATTTAGGTTTGATTGAAATTGAAGATCTTGAGAATGAAAAGTCGTTATGGATAGATACTTCGAACCAAAAAATTAGGATCAAATATGCTTCTTTTTTAAAAGAGCAGTCAAATCAGTTTAGAGAACAATGTAGAAAAATTGGCGTAAAACCAATTCAAATTTCTACTGATGAGGATTTTGTGAAGTCTCTCAAATTGTTCTTTAAAAAAAGATAGTTTAGATGAGGTTTTATTTATTATTCTTTATTTTGGTGTTAAATAATTGTAATCAATCGAATAATGTTATTCAGATTGAAACAGAACTAAATTATTCTGATTTATTCATTGGTTCTGTTTTGGAACATAAAATTTCCCTAAAAGATATTGATTTATTTCAACCGGATTCTATATCAATAAATTGGAATGATAATGGTTTATGGTTAGTAGATTCTTCTTCAATTTTAGTCCAATCTCATGCAAAACAATTTCAAAATGAATATGTCTTGAACCACAAAATTACATTTTGGGATACAGGAGAATTTACTATTCCTCCTATAAATTTAAAGTTGATCAATGAATCTGATTCACTATTATTTCAATCTGATAGCTTTAAAGTTTTTATAGAGTCTTCAATAGATTCAACAATGAAGAAGATTTTTCCTCTTAAATCTCCAGAAGAAATTAATTTTCCCTTGGAAAAAGTTAAAATTTTTTATCTAATCTTAATTCTTGCCCTAATTATTTTGTTTTTTAATTTTCTTAAATCAGAAAAATCTAAACATCTTTTTAAGAGAAATTTTTATAATCAATCACCAATTAGTGATGCAATAGATTCTTTAAACAATATTAATATCGAGTCCCTTTCAACAGAGGAGTTCTATTTGGAGATATCGAATATTCTGAGGAAGTTTTTGGAAAACAATTTCTATTTAGTTTCTTTTGAAATGACTTCTGAGGATATACTTTCAATTATCGAAAATAATGATTTAAAGAAAATTCTTTCCAACATCGATCAATCAAAATTTGGTAAAAAAGAATTTGAAGATGAAATAAAAAAAGCAGATTTAGAGCTAACAAAAAAAATCATAAGAACTCTTTTTAAAACTGTTCAAATAAATTAATTTCCCATATGGCAACGACAGCAGACATAAAAAATGGATCAATAATCATTCACAAAGATTCAAGAATGAAAATTGTTGAATTTCAGCATGTAAAACCTGGCAAAGGACCAGCTTTTGTTAGGACAAAATTGAAAGATATTCAAACTGGAAAAGTTATTGATCATACATTCAATTCTGGAGCCAAGATTGAGTTTATTCGCGTTACGGCTGACGTTTATCAATATTTATACAATGATGGAAAAAATTTCATTTTTATGGATAATAAAACTTACAACCAGATTGAAGTTTCAGATGTTTTAATGGGAGATAGTTATCTTTATATTAAAGAAGGTGAGTCTATTGAATTAGTTTTTGATGGGTCTGAAATTATTAACATGAATTTACCCCCCAAGGTCACCTTGAAGGTTTCTGAAACGGAACCTGGTTTAAAAGGAAATACCGCAACCAATGCAATGAAACCTGCAAAATTAGAAACAGGATTAGAAGTTCAAGTTCCATTATTCATTAATGCAGGAGATTTGATTAAGATTGATACAAAAGATGGTTCATATTCTGAAAGGGTAAAAGCCTAGAATGTGGAAAGATAAATTAAAAGAAATCATTTATCTTCTCGAACACAGTGATGTTAATGAAATTGAGGTAAATTTTTGGTTTAAAAAAATAAAAGTTACTAAGAACAGTACACCTGTATATTCCTCAATTCCTGTCCAAGATTTATCTCATATTACTGAAAAAGAAACACAAAAAAATTCTAAAGATAATCCCTCAAAAATAACTTCTGATCAATCACTAGTTATTGTCAGATCTCCTATGCCTGGAACTTTTTATTCCTCTCCAGATCCAGAATCTTCAGCTTTCGTCAATGTAGGTTCTAAAGTCAAAGCAGGAGAAACACTTTGTATAGTAGAAGCGATGAAAATCATGAATGAAATTCAATCAGATATCAATGGTGAAATTGTCGAAATTCTTGTTCAAAATTCTCAACCTGTCGAGTTCGATTCCCCTTTATTTTCAATTAAAAAAATTAACTAATGTTTAAAAAAATCCTTATTGCTAATCGCGGAGAAATTGCGATAAGAATCATTAGAGCTTGTAAAGAAATGAATATTAAAACCGTCGCCGTCTATTCTAAGGCAGATGAATTTTCTTTACATGTTAAATTTGCTGATGAAGCGATTTGCATTGGTAAGGGACCTTCTTTGGAAAGTTACTTGAACATTCCACGCATTATTGCTGCAGGGGAAATAACAAATGCTGATGCAATTCATCCTGGATATGGCTTTTTAGCTGAAAATGCTCAATTCAGTAAAGTTTGTAAAGAAAACGGTTTTGTTTTTATTGGTCCTGATTCAGAAATCATTGAGTTGATGGGCAATAAAGTAAATGCTCGTATCTCCGCTGAAAAAGCAAACGTTCCAATTATACCAGGTAGTGATAAATTAAATGAAATTGAAGATTTACTCGAAATAGGGAGAGTAATTCAATATCCATTGATGCTCAAAGCTTCTGCTGGAGGTGGAGGTAAGGGTATGAGAGTGGTGAAAAATGAAGAAGAGGCAAAGAAATTTTTTGGAGTAATTAAAAATGAAGCTGAAAAAGCTTTTAATAATCCTGAAATATATGTCGAAAAATTCATTCAAAATGGCAGGCATATCGAAGTTCAAATCCTAGCTGACTCTTATGGTAATATAGTTCACTTTGGAGAAAGAGACTGTTCAGTTCAAAGAAATAATCAGAAACTAATCGAGGAGTGTCCATCGAGCTTTGTAGACAATGACTTAAGAAAATCTTTGACTGAAAGTGCAATTAACTTAGCTAAACAAGTCAATTATGTTGGAGTTGGTACAATTGAATATTTAGTAGATGATGACAAAAATTTTTATTTCATTGAAATGAATACTAGAATTCAAGTTGAACATACTGTCACTGAAATGGTTTATATGGTTGACTTAGTCAAAGAACAGATCGGAGTACATTTTGGAAAGAAAATTTCCTACTCTCAATCAGATATCAAGATGAAAGGCCATTCATTTGAATGCAGACTAAATGCTGAAGATCCAGATAATAATTTTATGCCTTCTCCTCTTAAAATTGAATCCCTAAATTTTCCAGGAGGCATTGGAGTTCGAATCGATTCATATATTTACGCTGGGTATCAAATTCCTTCTTATTATGATTCAATGATTGGTAAAATTATTATACACTCTTCCAATAGAGATAAAGCTATTGTAAAAATGATTAGAGCACTTGAAGAAACTTTTGTTGAAGGACCAAAAACCACCTTACCGTTGTTACTTAAAATTTTTAAAAATAATAAATTTAAATCTGGTGATTTCAATATTAATTTTTTAAAAAACTTTCTTGAAGAAAATAAGGAGAAATTAAATGAACCATCCAAATGATTTGAAATATACTAAAGAGCATGAATGGGTTAAAATCCAAAACAATTCTGTTACTGTGGGTATAACAGACTTTGCGCAAGGAGAACTGGGAGATATCATCTTTATAGAACTTCCAAAAGAGGGTGAATCTTTCAATGCAGGGGAAATTTTTGGTACCATTGAAGCTGTTAAAACTGTTTCAGATTTATATATGCCTTTATCTGGAAAAATTATAGAAGTCAATACTTCAATCAATGATAATCCAGAATTTGTTAACGAGGATCCATATGAAAAGGGATGGATGATTAAAATTGAACTTTCATCAGATGATTCTTCATTGCTTCTTGATTCAGAATCATATATTAATCTTATCCAATAATATGCTTCCGCACATTGATGCATTTAATAAAATTTTAAAGCTTGAGAAAAATTTTTCAAAAAATACAATTGCGTCTTATTTATCTGACTTAAAAGCATTGGAGACTTTTTTAGTTAAAAAAAATATTGATTCCAAAACTGCGTTTCAAAGCGATGAAATATTGAAAGAGTATTTTCGTTCGTTGTCCCAAGAAAACCTTTCATCTAGAACTATCAAAAGAAAATTTTCATCATTATCGTCTTATTTTAATTTTTTAATGGAAAAAAAGAAAATTGGAAAAAATCCATTATCATCCGTTTTTACCCCAAAGTTAGATAAAAAACTTCCATCTGTATTAACACTAGATGAAATAAAATTAATTTTTAAAGCATGTGAAGATCATGAGAATGAGTTGTTGGGATTGAGAGATAGATGTATGTTCGAACTTCTTTATTCTGCAGGACTAAGAGTTACTGAAATTTGTGATTTAACAATGGATAATATTCTTTTTGATGAAAAATTAATCCGTTTTTTTGGTAAGGGAGATAAGGAAAGAATTATTCCATTAACTTACTATGCTTTAGAGTGGTTGAATAAATATCTTTTTCAAACTAGAAAAATTTTATCTGGAAGAAAGTCTTATAATAGTGATTTTGTTTTTTTAAGTAATAATGGGAAAAAAATGACTCGAGCTGCTATTTGGCAGATAGTCAAAAAATATATTTATCAACTTAATATCAAAAAAAATGTATCCCCTCATACTTTTAGACATTCTTTTGCCACTCATCTTATTGATGGTGGAGCAAATTTAGTTGTTGTTCAACAATTACTAGGCCATTCTGATATTTCTACTACGGAAATTTATACTCATCTTTCCAGAGATTATATTGATTCAGAATATCTAAAAGCTTTTAAAAAAAATAGTAACTAATTTAGGCTTGTATGGGAATAATTAGTTTATCTTTACAGGAGCAAATAATTTTAATCCCAACCATTTTATTTGCTTTGACTTTCCATGAGTATGCTCATGCTAGGGTTGCATATCTTCTGGGTGACAGTACAGCCTATTATCAAAATAGGATGAATTTAAATCCTTTAAATCATATTGATCCATTTGGATTCCTTGCTCTATATTTTTTAGGATTTGGATGGGCGAAACCAGTTCCAGTTTATGCTCGAAATCTAAAAAATATTAGGAATGATATGCTATTAATCGCTATGGCTGGTCCAGCATCAAATTTTCTGTTAGCAATCATAGGTGCTATAATTTTCAGATTGAATACATATATTTACATTAGTGATTTACTTTTTGATCCGTTAATTAGGTTTATTCAAATAAATATCTTATTAGCCATTTTTAATCTAATTCCTTTACACCCCCTTGACGGATCAAGGATTTTACCGCAATTCATTAAAAACCCTCGAACTCTTTATAAAATTGAACTATATGGTCCAAGAATTTTAATGGGTTTAATAATACTGAACCTTATAGGTATTCCTATTTTGAGTCTTATAATCTTTTATCCTTTATCAGTTATATTCTTTTTCTTAACTGGGATTCCTCTGTTTTGAAAATTTTTTCAATTTTTGGTCCAACAGCATCAGGGAAAACTAATCTATCTATAGAATTAGCTAAAATTGTTAACGGTGAAATCATTGGAGTTGACTCAAGGCAAATTTTTAAAAATATTGCAATTGGAACTGCTCAACCAAATGCTTATCAATTATCAGAAGTCAAACACTATTTAGTAGGGGAATTAAATCTAGATCAAAAAATTTCAGCTGGCAAATATATGAAAAAGGTAGATGAAGCTATATCAACTATAATTGATAAAAATAAAACACCTATCCTTTGTGGTGGAACGGGTTTATATCTTAAAACTATGAAAGACGGTATTTTTTCAGGAAGCAAAACCAATTTATCGATCAGAAAAAAACTCGAAGATAAATATGATTCTGGAAAAATGTTTGAGATGCATGAAGAGCTTCAAAAAATAGATCCTATTTATGCAGAAAAGGTTCATGTTAATAATCGTCAAAGATTAATTAGAGCCTTGGAGGTTTTTAAAATTACAGGAAAACCAATTTCAGAAAATTTTCAATCAGTAAATAAGAAGAGCATTTACTCTGAAAATTTGGAAACGGTTTTTCTAAAAAATTCTTTAGTGAACTTGGAAAAAAGTATTTCTCAAAGAATCGATTTGATGTTTGATTATGGAATAGTTGAGGAAGTACTAAAAATAAAAAAAATGGATTTAGATATTAGTCATATCAATTATATAGGATTTAAAGAAGTTTGTGATTTAATTGATGAAAAAATTTCATTAAATGAAGCTAAAGAACTAATTTATTTTCGTACTAGACAGTATGCAAAAAGACAACTAAAGTGGTTTAATAATCATCAATTTGATCAAGTTATCGATCTTGAGACTATCAAACATAATCGAATAGTTGAATTATTAACAGGAAAAACATAATTTTCTAAAACATTTTGGAGATTTAATGCTTAAAAGTAAGCATCTTATTGGAATTGAAAACTTTCCTACCACTGATTTAATCAAAATCATTGATACCTCTTTTTACTTCAAAAAAATACTTATAAGCGATGAACGGAAGACAGACTTGTTAAAAGGTAAAACTTTAGTAAATATGTTTTTCGAAAATTCAACAAGAACAAAAATCAGTTTTACCTTAGCTCAAAAAAGACTTGGAGCTGATTCAATCAACTTTACTTCTAGTACTAGTAGTGTTAGTAAGGGCGAATCTTTAAAAGATACTATTTTGAATATCGCGTCTATGCAGATAGATGGAGCTGTTATTCGTCATAGTCATCCTGGAGCAGCCTTGAGATTAAGTGAATATATTGATGGATCGGTAATTAATGCTGGTGACGGTTCTCATGAACATCCTACTCAAGCAATTCTTGATATGGTTTCTTTGAAAGAAAAATTTGGTAGAATAGATGGATTAAAAGTGGGAATAGTGGGAGATATTTTGAATAGTCGAGTTGCTAGAAGCAATATATTTGCTTTAAAAAAACTTGGCGCTGAAGTTATTGTTTGTGGACCATCAACTTTATTGCCATCAGAAGCAAAAAGATTAAATATTAACTTCTCTTATAATTTAGATGAGGTACTGAATTGGTGCGATGCTATAATTGCGCTTAGAATTCAGATGGAAAGGATGCATTTTGGTAGACTTTCTTCGAAAAGAGAATATTACAGTAAGTTTGGACTATCTTTTGAGCGAATTAATAGAATAAAAAAAGATATAGTGATAATGCACCCTGGACCGATGAATCGAGGAGTTGAAATCGATAGTAAAGTAGCAGATTCTGAAAATGCAATCATATTAGATCAAGTATTAAATGGCGAGGCCTCTCGAATGTCAATTCTTTATTTATTATTGGGAGATAATAATTGAAATGATAACAAGCAAGAATAGTAAACGGGTTTTACTCAAAAATGGTCTAATAATAGATCCATTGAATAACAAAGAATTCTTTTCAGATATTTTAATTAAGAATGGCAAAATAGATTCAATTAAAAAATCTATCAAAACAGAAAATGATTACCTAGTAATTGATTGTAAAGGTCTAGTTATTACTCATGGATTTTGTGATATCCATGTTCACTTTAGAGAACCCGGAAGGGAGGATAAAGAAAATCTCGAGTCAGGAAGCTATGCTGCAATTGCTGGCGGATTCACTCAAGTATGTACTATGCCCAATACAAACCCCATTATTGACTCTCCTGAAAGCATTTATTTTATTGTAAGTAGAAGTAAAGATCTTCCAATTGATATTTTTCCAATAGGAGCAATTTCGAAGAATCAAGAAGGTGAAAAATTAACTGAAATGCTTTTAATGAAAGATAATGGGGCGATTGCTTTCAGTGATGATGGAAACCCAATTCAGAATAGTCAATTTATGAAACTAGCATTAACCTATTCAAAGATGATTGATACTCCCATTATAAATCATGCAGAAGATGTTTATTTAAGAAATGAAGGAGTAATGAATGCAGGCTCTAATTCTAATAATTTAGGTCTCAGAGGAAACCCAAATTCTGCTGAAGCAATTATGGTATATCGAGATTTGTTGCTCGCTTCTCAATTAAAATCTAAGATACATATTCCGCACGTCTCAACGAAAGAAAGTGTCGATCTTATAAAAAATTTTAAAAAAGGTAATTCATTTATAAGCGCTGAAGTTACTCCCCATCACATTTATTTTGATGATTCTTCAATCAATTCTTCAAATTATAATACAAATTTAAAAGTTGCTCCTCCTATAAGATCAAAGAAAGATTGTAAAGCATTGATAGAAGGTTTAAAAAATGGTACCATTGATTGTATTGCAACTGACCATGCTCCACATACTATTGAAGAAAAAGAGACTACTTTTAATGATGCCGCTTTTGGAATGATTGGTTTAGAATCATGTTTTGCTGCCGTAAATAAAATTCTTGTTAAAAAAAATAAAATGTCGCTTTTGACATTGATTCAAAAATTATCTACAAACCCAAGGAAAATTATGGGAATTGAAGCGGATTTATTTAAAGAGGGAAGTAGCGCTCAAATAACGATTCTTGACCCTGATTTAAAATGGACATTCTCTTTAGACTCTGTTTATTCTAAATCGATTAATTCCCCTTTTTTAAATCAAGAACTTATTGGTAAGGTCAAGTTTGTACTTTCAAAGAACAGAATTTTCTACTTATAAAGATATTATCATAATCATTGACTAATCGTAAGACTTGAATTAAGTTCAGTTGCTTTTTTTTAAAGAGAAAAAATATATGAGAAAAATAACAAAAACTGTTTCTATAAACGAAATTAACACTACCTGGTGGCTTATTGATGCTGAAGATAAAGTTCTTGGAAGAATTGCTAGTGAAGTGGCACAGATTCTTCGAGGAAAACACCGACCTAATTATTCTCCTAACATGTACATGGGTGATGCGGTGGTAGTTATTAATTCTGATAAAATTAGATTAACGGGTGACAAGATTAATTCAAAAAAGTATTTTAGACATTCAGGATATCCTGGTGGAGCTAAAATCACCAAACTCTCAGATTTAATGAAACATAACTCCGATAAAGTACTAACAGATGCAATCGTGGGAATGCTTCCAAAAAATAAACTTGGAAGAGAAATCAGTAAACATTTAAGAGTATACAGAGATAATAATCACAATCAGGGAGCACAGAAACCAACCCAATGGAGTTCTAATTAATGAATAATAATTTTTACAATGGTGTCGGAAGAAGAAAAAGTTCTGTTGCCAGAGTTTACTTATCTGACGGTCAAGGAACTCATACTGTCAACAAAAATTCAAATATTAAAGAATATCTTAAAAGAGATTCACTTGTTATACACGCCTTGGAGCCACTAACAGTTTTAAATCTTAATGATAAAATTGATTTAAAAATTAATGTTTCTGGCGGTGGTCTAACTGGACAAGCTGGAGCAATTAGATTGGGTATTGCTAGAGCGTTAATTGAACTTAATGAAGATTTTAAACTACAATTAAGAAACAGAGGATTGTTAACTAGAGATTCAAGAGTTGTTGAGCGTAAAAAATACGGTCAACCTGGAGCAAGAAAGAAATTTCAGTTTTCTAAGAGATAATATATTATGCATAAAATTACTAAAGATGATTTAATCAATACTGGCGCACACTTCGGACATATTACAAGTAAAACTAATCCAAATTTTAAAGACTTTGTTCTTTCACAAAAAAATGGAATTGATATCATTAATCTTGATTATACCCTTAAGAGTCTTGACAAAGCGCTTTCATTTATAGTCGAAATAGTTCAAAACAATGGAGACGTTCTTTTTGTTGGTACTAAAAAACATGCAAAAGATGTTATCCAACAAGAAGCAGATCGTTGTGGAATGTATTATGTTGTAGAAAGATGGCTAGGAGGAACTTTAACTAATTTTTCTACCATTCGTAAGAGTATTAAAAGATTGCATACTCTTGAAAAAGAAGGTTCTTCTATTTATGATGATTTAACAAAAAAAGAAATTTTAAAACTTAATAGAGAAAAGTTAAAATTATCCGACCAACATCGAGGAATTAAAGATATGAATCGCCTTCCAAACGTTATAGTTGTTGTGGATGGAAAGACAGAACATATTGCCCTCGAAGAAGCAAAGAAACTTGAAATTCCTGTTGTTTGTATTGTTGATTCTAATACTGATCCTTCATTGTGTAGTTTTCCAATTCCAGCAAACGACGATTCAATTAGAACTATTCAATTGTTAATTTCTGAAATTGTTAATGCTATCATAAGTGTTGGAAAACCAGAAGAAACGAAAATTGATGATAGCTCTGTGAATTCTAAAGATTTAAATGACAGTACAAATGATGAAGTGAAAGGTGCTAGTCAATGAGCATTGATGCAAAATTAGTAAGAGACTTGAGAGAAAAAACTGGTGCAGGAATGATGGACTGTAAAAAAGCTCTAGTAGAATCTAATGGTGATATTAATTTAGCCTTAGATTTTTTAAGAAAATCTGGAATTGCTAAAGCTGAAAAGAAATCTTCAAGAGATGCAAAAGAGGGTATCATATATTCCTATATTCATAACGGAAATAAATTAGGAGTTATGTTAGAACTTGGATGTGAAACAGATTTTGTTGCTAAAACAGACGGGTTTATAGACCTTGCTAATAATATTGCTATGCAAATTGCTGCAACCAATCCTTTAGCTATTAATGAAGAAAATATTGATCCAAGTATTATTGCTAAAGAGAAAGAAATTTATACTGATCAGGCAAAAGCCACAGGAAAACCTGATAATGTAGTCGATAAAATTGTTGAGGGTAAACTCAATAAATTTGTTGAAGATAATTGCTTAATGCAACAAACGTTTATTAAGAATCCAGAACAGAATATTACCCAACTTTTACAAGAATCAGTTGCTAAGATTGGCGAAAATATTACAATAAATAGATTTGTCAGATTTGCAATTGGTGAATCTTCATAGTTTAATGTTTGCTCAATATATTGATTCAACCAAAGTTAAAATGCAACAAGCGGTAGATTTTGTAACTGCCGAACTCTCAAAAATACGTACTGGTAGAGCTAATCCAGATATGTTAAATAAGATTTCTGTTAATTTTTATGATAGTGAATTTCCTATTAATCAGTTAGCGAACATAAGTGTTTTAGATGCGATAACTTTAAGTATCCAACCATTTGATAAATCTTCCATGGCTACAATTGAAAAAGCAATTCGCAATTCTGACCTTGGGCTTAATCCATCTAATAATGGGTCTTCTATTATTATTCCGTTTCCACCACTATCAATGGAAAGAAGACAAGAATTTGTCAAAATTGCTTCAAAACAAGTTGAAGAGGGAAGAGTGTCAATTCGTAATATTCGTCGTGATATTATTCAAGTTGTGAAAAAAATAGATACCGAAGAAAAACTACCAGAAGATGAAGTTAAACGTTTTATGGATGATGTTCAAAGCCTTACTGATGAATTTATTACTAAGCTAAACGATATTTTTTCTATTAAAGAAAAAGAAATTATTGAAAAATAATTTTTTATTTTACTGACACTTAGACCAACCGCAATCTTTGCAGGTATCACAACCGCCTTCATTTACTACTGAATATGATTCACATTCAGCGCAATAACGTCCTTTAGTTTGCGAATTTGTTTCAGCCATCTCAAATTTAGAAGTACTATTTTTTGGAATAGATGATGAGTTGTCATTTCTATTTAAAAATGATTCTAATGCCCTTCCGATTGCATCTGGTGTTGAAAGAATTAGTTGGCCATTTTCCCAAGTTGGGTTAGGTCCACTAATTCCTTTGAGTTGATTTATAATACTTTTTGGATCAATTCCAGAACGAAGTGCTAGGGAAATTAATCGACTAATCGCTTCGGTTTGAGCAGCAACAGTTCCACCTGCTTTTCCAATTGCAGTGAAGACTTCACAAAGTCCATTATCATCTTCGTTAACAGTGACGTATAGGGTTCCATCGCCTGTTCTCATTCTTAAGGTCGTTCCTTGGGTGATGTTTGGTCTATTTCTGGCTGTGCGTTTTTTTGAAGATGTTTCAGTAGTTTCTTTTGAAGAATCTTTTTTATTTTCCTTGCTCTTTTCATTCGTGACAAGAATTCCTTCTCTAGATCCTTCTCTATATACAGTAATACCTTTTAGATTTGTGTCGTATGCAGTCATATAAATATCTGCAACCGTCTTGACAGTTGTATCTTCACTCAAATTAACAGTAGAAGAAATAGAAGTATCAATGTATTTTTGAACTACCCCTTGCATTTTAACTCTAAAATAAGGGTCAACATTGTGGGCTGTTACAACATACTGAGGAAGATTAGTATCTGAACCAAAGATTTCTTTGATTACTGGATGATACACTGTAAAGATGTCAAATTCCTTGCCTAGTGAAGAATTCTTTTTAACCTTCCTTTGGTATGAAGTTGCAAAGATTGGTTCTATTCCAGAAGTAACTCTTGCTACAATTGCCCCACTTCCAGTGGGAGCTACGGTAGTCAACGTACAATTTCTGATTCCAAATTTCTGAATATTTTCTTTAATGTCTTTTGGTAATTCATTAACAAATTTACTCTGAGAATATCCGTCCCAATCAAAATTTGGAAACTGACCTTTTTCGCGGCTCAATTCAATACTTGTTCTGTATGCAGCATCTCTATGAACTCGCATAATTTGTTCAATTATATCTAAAGCTTCTTGAGAGTCATACTTTACACCCATTTTAACAAACATATCTCCTAAACCTAAGATACCCAATCCTACTCTTCGATCATTTTTTGCATTTTGTTTCTGTTCTTCTAGAGCATGTCTGTCAATATTGTAATCAATGACATTGTCAAGAAAGCGGGTAGCTACTTCTGTAACAGTTGTAAATTCATCAAAATTGAACGAACCATCTTTAGAAACAAAACGTTCGAGGTTTAGAGCACCTAAGTTACAACAACCACCATCAGGCAGTGGTTGTTCTGCGCAAGGATTAGTTGATAGAAGAGGACTACAATACTCTGCATTGTGATATTTTTTCATTGTATCCCAAAAGATTAATCCCGGTTCAGCGCTTGAATGAGCATGATTAATAATTTTCATCCATAAATCATTGGCATTTACAGTTTTGTAAACTTGCCCACCCCATTTGAGTTCAAAATTCGAGTTACTTTTTACTGCTTGCATGAATTCATCGGTTAATAACACAGAAATATTTGAATACTTTACCATATCAATATTTCCTGTTTTGATTTCTATAAATTTTTCAATATCTGGGTGATCAATTCTTAGAGTTTGCATGTTAGCTCCACGGCGTCCGTGTTGAGCGATAGTGTTAGTGTTTTCACTAAATAAATTCATAAAGCCAACAGGGCCACATGAATTTCCTCCGGTTCCAAGAATTTCATCCCCTCCTGGACGCAGTATTGATAAATCATGACCACAGCCTCCGCCATATTTATAAGTCAAAGCTTCTTTAACAACACAATCGTAAATTGACTTTATGGAATCATTTTTTATGCCAACAACGTAACAATTATTTAGAGATGTGGTGATATCTTCTCTACCTGCACCATGCATAATTCTTCCCCCAGGAACGAACTTAAAATTCTTGAGTGCATCAAAAAATTCTACTTCCCATTTTTCTCTTAACGCTTTGGTTTTCTCAACACTAGCTAAAGCTTTAGCTTGGCGTTTCCAAAGATCCCAAGGTGATTTTTCACCTGGGGCTAAATACTTCATTTCCAAAACACTTTTACCTAAATCATCTTCTTTATAGTATTCTTCAGATGTGAATTGGGAAGGACATGATTCTTCATGATCAGTTATTTGATTATTCTGAGAGAGGTTGATGTTGAGAAGCGTATCTCTTAAATCCTTGTCAACCTTAGACTTTTGTTCTTCAGTTGGAAAATTTAATTCTATCGCTTCTGCAGCCATTTTTTTGTATAAAATCCCTCGGTTAAATTTTTTTAAAAGTTTTTTTGCAATTACACAAATTGGTAGAATTTGCATACAGGCAAGCCTAATAACTTAGCTTAATTAATAAATTTTTGTCAAGTTGAAAAAAGCATTTTTTTTATTTTTTTTCAATAATCTTATTTTTTTCAATAATATGATAAAAAAATATTTAAATGCTATTAATTAAGAACTAAATTTCATCTAATTAATTATGTCAGAATATAACCAGAATCAAAATTTTTCATTGGATGATAAATATACGCTTCTTGAAGGGAGAATTATATTATCAGGAATACAAGCATTAGTAAGATTATTGCTTGATCAAAACCGAGCAGACCTAATCAAGGGACTAAACACAGGAACTTTAGTCTCTGGTTACAGGGGTTCTCCTGTCGGTATGCTGGATATCAATCTTGTTAAAAATAAAAAATTATTAGACCAACATAATATTAATTTTATTCCTGGAGTTAATGAAGATCTTGGAGCCACATTGATTTATGGAAGTCAGATGGCTGGTATGGTTTCTAACGTAAAATATGATGGTGTTTTGGGCATGTGGTACGGTAAAGCTCCAGGGGTTGATAGGTCTGGCGATATTTTTAGACACGCGAATTTCTTAGGTGTTAGCAAGAATGGTGGAGTAATTGCAGTAGCAGGAGACGATCCTTCTTGTAAATCTTCAACTCTTCCTTCTCAATCTGAGCCAGCGCTTTTTGATGCAATGATGCCAATTTTTTATCCTGGCAACGTTCAGGAAATTCTTGATTTGGGTAGATATGCTTATGAAATGTCTAGATATTCAGGACTTTGGTCTGGTTTTAAAATTGTGACTGATATTGCAGATGCTTTTGGAAGCGCAATAGTTCACCCTGAAAGAATAAATATTACTATTCCAGATTTCATTTATAACAATATGCCATGGAAGCACACGCAAAACGCTAAGTTGGTAGGGCACCACAGCTTACCAACAGAAAAAGAAATTCATCTTGGTCGTATAAAGGCTGCTAAAAAATTCTTAGAGGTTAATCCTATAAATAAAATTACTATGGATAGTGAAAATGCGAAGATAGGAATCATTTCTGCAGGAAAAACTTATTATGATATAGTTGAGGCCCTTGATACTTTAGGTTGGGATCAAGCGTTTTTAAACGAAAAGGGAATTCGAATTCTTAAGCTTGGGGTTACTTTTCCATTAGATTCAAAGCTAATTGAAAGATTTTCTTCTGGTTTGGATGAGATAATTGTAATTGAAGAAAAAAGATCTTTTATTGAAATGTTGCTTAAAGAAGAGATTTATAATTATAGATCTAAACCTTTAATTGTTGGTAAAACTGATGAAAATAATCAAGATTTATTTCCTGGTTATGGTGAATTAACCGCTGATGACATTGCTAAAATTTTATTTGAGCGTTATCATTCTAGATTTGGTATAGAGTCTTCAAATGAAAAAATAAGAATTCTAAACGAAATTGACCATAGAGATGCTATCGAATCTTTGACTGCAAGATCTATGTATTATTGTTCTGGATGTCCTCATAACACCTCTACAGTTAAGTTACCAGATGGAGACTCCGCCTTTGGTGGTATCGGTTGTCATTTGATGGCTATGTTTGTAGATGATGGTAAAGCCTTTGGAACTACTCATATGGGTGGAGAAGGAGCTCAATGGGTTGGTATGGAGCCCTTTGTTAATAAAGAACATATGTTCCAGAATATTGGTGATGGAACATTTTTTCACTCAGGATCTTTAGCTTTAAGACAGGCAATTGCTGCCAAATCTCACATTACCTATAAAATCTTATATAATAGAGCAGTGGCAATGACAGGAGCCCAAGATCCTGATGGAGGTTTAGATTTGCCAGAACTAACAAAATATTTGAAATCCCAAGGGGTTTTAAAAACTATAATTACATCCGATGATCCTGATACTTATAAAGATATTCCAAAATCACGATGGGATAAAGATATCGAAATAATGCATCGTGAAGATATTGTCGAAGCTCAAAAAAAACTAAAAGCTATTAAAGGTGTCACAGTTTTAATTCATGATCAAACATGTGCAGCAAATTTAAGACGCCTGAGAAAACGTGGATTGGTTCATGAGCCTAAAAAGAGAATTTTTATCAATGAAGCTGTTTGTGAAGGGTGCGGAGACTGTGGTGTCAAATCAAACTGTTTAAGTGTTCAGCCAATTAAAACTGAATATGGAAGAAAAACTCAAATTGATCAACCTTCATGTAATAAAGACTATTCCTGCGTTGATGGAAATTGTCCATCATTTATTTCAATTATTCCTTCTGAAAAAGATGACAAAAGAAATCTCCCAGGCTTAGATTTTGATTCTAAATCTTTACCAACCCCTAATAAAAATGAAAAAGACATTTCTAACATCTTCATGTTAGGAATTGGAGGGACTGGAGTTGTTACTGTAAATCAAATTATTTCCACTGCTGCTTTTCTTGAGAATAAAAAAGTTATTTCTTTGGATCAGACAGGACTCAGTCAAAAAGGAGGATCTGTAGTTTCTCATTTAAAAATCTTAAAAAACTCTAAGAAAGATTTGTCTAGTCGAGTTGGGAATGGGGAAGCTGATGCTTATTTGGTTTTTGATTTATTGACTGGTTTCAATCCAAAAAATCTTGCAAAACTTAACCCGAAAAGATCTATCTCTGTGATTTCTGCCTCTGAGATTCCTACGGGTGATATGGTGAGAAATACCACCTCAGAATACCCGGATTCTCAACAAATGATTTCTACTATTTCCAATTATTCCAAGTCAAAAACTTTATTAAATGCCACTGAGCTCTCAGAACATTTTTTTGGAAGTAATATGCAAGCTAATTTTATCGTTGTTGGTGCTGCATTTCAGTCAGGTTGTATTCCATTAGATGCTTCATCTATTGAAGAAGCGATTGAATTAAATGGCGTTTCTGTTAAAGCTAATAAAAAAGCTTTTCTTATTGGTCGTAAAGTTGCTGCTGATCCCATTTGGATTGAAAGTTTAAAACTATATCGTTCAGGTGATCTTAGTTCAAAACCTATCATTTCAAATGAAGCCAAATCTTTAATCGATTCATTGAATCCTGACAAAGATTTACAAAGAATTTTAGAGCATAGAGTTCCGGAATTAATAGCTTATCAAAATCTTTCCTATGCAAAAGAATACATTAATTTTATTCAAGTGATTCATAATGAAGAAAAACAAAGTCAGAATTCCTCTGAATTAACTCAAAATGTAGCAAAGTATTTATTCAAGCTAATGGCGGTTAAAGATGAGTACGAGGTAGCAAGATTGTCCTTAAAGCCAGAATTAGAAGCTGCGATACAGTCTGAATTTGGTTCATCCGCTAAAATTAACTTTATGTTACATCCTCCTATTATGAAAAAATTGGAAAATATTCCGTTATTGAACAAACTCCCAGGAGTGAAATCTAAATTATCGCTTGGAAAATGGTTTAAAGTATTTTTTGTATTATTAAAAAATCTTAAATTTTTAAGAGGGACTAAACTTGATTTTATGGCTTGGTTTAGTGCTGATGTCAGAAAAGCAGACATCGAAGTTCTTAAACATTATAAAACTGTTTTAACTGAAAATTTACCTTCAATTAAAAATGGAGGTTATGAAAAAATGATCAAGTTCTCTGCTTTGCCGGATGTAATTAGAGGTTACGAAGAAGTAAGGCTTGAAACTCTGAAAACATATTACAATAATTCCAAACAGATAATAGGGTAGATACATGAGAAAATTTTTAGCAACTATATTTTGTTTTCTCTCAATAGCTATAGCTCAACAGCATGTTCATTCTTCAGTAGAAGATTATGTTAGATGTATGAGCGATGAGTTAGAGCGAGAGTTACAGGTAAATAATCCAGAATTTATAGAAGAAAGAGACGCTTTGATAGCTCAAAGCAAATCTTTGATTGAAAATAATCCTCAGTGGAGAACTGCTCGTTCAACTATTTATATTCCTGTCATTTTTCATGTTTTGTATTTTGATCAATCTGACAATCTTGCCAAGGATAAGATTGCAGCCAATTTTGACCAAATCAACTTAGATTTCCAAAATTTAAACCCTGATGGAGATGAGATTCCTTCTGATCCCAATCCATCCAATGCTCCGTATGATCCAGGAATAGACTATGCATTCAATGATGTTCGTGGGTCTATGCAAGTGAAGTTTGTTGGAGCGCAAGGCGAAAGAACAGGTGATGAATTAATTGAGGGAGTCTCAATTCGTCGATACAATATTTCTTCTTCAACAGTTTCTGGAGTTGCCCAAGCAAGTAGTCTTGCTAGTAATACTTCTACAGATAGTGGA
>sequence09
AACCACTCCAACATCTAAGTTCAATTCTTTTATAGCCTGTATAACTCCATTAGCAACACGATCACATCTAACAATCCCACCAAAAATATTTATTAAAATTGACTTAACATTGGGATCAGATAAAATAATTTTAAATCCATTTTTAATAGTATCTACATTTGCAGCTCCACCCACATCAAGAAAGTTTGCTGGTTCTCCACCACAATGTTTGATGATATCCATAGTTGCCATGGCTAAGCCAGCTCCATTAACCATACAACCAACATTTCCATCAAGTTTGATATAATTTAAACCAAATTCTGATGCTTGAAGCTCTAAAGGGTCTTCTTCAGTTTTATCATGGAAAGAAGATATTTTTTCCTGCCTAAAAAGAGCATTTGAATCAATATCAACTTTTGCATCTAGAGCAATTAATTTTTTTTCTGTTGTAATAACTAAAGGATTAATTTCTAGAAGGGAGCAGTCATTTTGATTATAACATTGATAAATATTTTCAAAGAAAGTATGGGCATCTTTGATTGAGGATAATTCTAGAGATTCAATTATTTTGTTGATTGCATCACGTAATGGTTTGGTTTCACCCGATATCCATGCTTTAACTATTTTTTCAGGAAATTTTTCAGCAACTTCCTCAATATCCATTCCACCTTCAGTAGAAACAATAAAAACATCTGCATTTTTTGATCGATCAAACATCAAAGCAAAATAAAGTTCTTTATCAATATCAATCGCCTCTGTTATAAAAATTTGATTAACAATCTTACCATCTTTTCCAGTTTGAGGAGTAATGAGATTCATACCAAGGATCGACTGAGATGCCTCAACAGCTTTATTATAATTTGAACAAAATTTCACACCCCCACCTTTACCTCTTCCACCTGCATGAATCTGTGCTTTAACAACGACTGATTCGGAATTGAAATCATTCTGTACTTTTTGAATAGTTTCATTAATATCACTTTTTTTTGAAACAACGTAACCTCTTTGAACAGGTACATTATATTCACTGAGGATTTGCTTAGCTTGATATTCGTGAATCTTCATTTATTCATTATCCATAAAAGGGTAACGATAGTCTTGAGGAGGTTCAAAAGTTTCTTTAATCGTTCTAGGGGAAGTCCATCTCAAAAGATTTAACATTGAACCGCCCTTATCATTTGTTCCTGAAGCTCTACTTCCTCCAAAAGGCTGTTGTCCAACTACAGCACCTGTTGGCTTATCATTAATGTAAAAATTACCAGCAGAAAATCTTAGTTTTGAGCGAACCTCATCAACAATATCCCTATCTTCTGAAAATACACATCCAGTAAGTGCATATGGAGATGTAGTATCAATAAGTCTTAATGTTTCATCCCAATTTTTGTCATCGTAAACGTAAATTGTCAATACCGGACCAAAAATTTCTTCCTCTAAAGTTTTAAAATGAGGATTTTTTGTTAGAATAATAGTAGGGTCTACAAAAAAGCCTTTAGATTTATCACAATTTCCTCCGAGCAATATCTCACAATCATCGCTAGATTTTGCATAATCTAAATAGGTAGCAATTCTATCGAAAGCTGGTTCATCAATGACAGCATTAACGAAATTTTTAAAATCCTCTGGCGGACCGATATCGATTGTTTGCGCTTGAGAAATTAATTTTTCCTTAATTATTGACCATTTAGAAGATGGTAAATATGCTCTTGACATTGCGGAGCATTTCTGACCCTGATATTCGAATGCACCTCTAATCATTGCAGTTACCAGTCCTTGAATGTTAGCAGAATTATGAGCTATACAAAAATCTTTCCCTCCAGTTTCACCTACAATTTTTGGGTAATTTCTGTAAGTATCTAAATTATCAGACACTTTTTTCCAAAGATATTTAAATGTTTTTGTAGAGCCAGTAAAATGTATTCCAGCTAATTCTGGGTGTTTTAGAACCTGATTACCAATTTTAGGGCCATCACCCGGTATAAAATTAATCACTCCATCTGGTAACCCAGCTTCCTTATATAATTCCATTATGCAATAAGACGAATAGACTGCACTCGGTGCAGGTTTCCAAAGAACCGTATTTCCCATGATTGCTGGAGAAATAGCTAAATTACCTCCAATGCTAAAAAAATTAAATGGGGCGATTGCAAAAACAAATCCCTCTAAAGGTCTAAATTCAAGCTCATTACTCATTCCTTCTGGTGAAATAGGGGTGAAGGAAGTTTGCATTTTATGAGCAAATTCAATATTAAAGTTAAGAAAGTCTATTAATTCACAGGAAGCATCAACTTCCGCTTGAAATACGCTTTTCCCAATATCTAACATCGCTGCAGCATTAATTTTATATCTATAAGGCCCCGCTATTAAGTCTGCAACTTTTTTGAAAATTTTTGATCGATACTCTAATGATGTATTTGACCAGTATTTCCAAGCTTCTAATGATGAATCAATAGCCATTTGAATCTCTTTTTCGCCAGCTTCGTGATAGTGACCTAAGATGTGTTGGTGGTCATGAGGCTTAGAACATACTTGAAGATTTCCAGTTTTTATTTCTTTTCCATTAATGATTATTGGAATTTCTTTTATTCTGCTAGACTGTCTTTCAATTTCTTTTAGAAGAAGCTTTCTATGATTTGAACCTGGTTCAAAATCAATTATCGGTTCATTAACAGCTCTAAAGTCTTTATCCATATTTTCTCCTAAAATTTGAGTCAAAATTTAGACAAAATATCTTTCATTTCAGAATAATTATTTGCCAATACAAATTTTTTTCTAAAGGAAGATGCTTCTTCGAATCCCTTAAAATACCATGAGAAGTGTTTTTTCATGTTATTAGCTCCAATTTTTTCTCCATGGGTCTGAACAAGAAGATCGAGATGCTTTAGACATATATCTAATCTTTCTTCTAAGCTAATTTTATCATAGTCTTGATCATTTAAAAACTTCTTTATTTGAGCAAAAAACCATGGATTTCCTAATGCTGCTCTACCAATCATTATTCCATCACATTTTGTCATTAAAAACATTTTTTCAATATCTTCAATATTTTTTATATCACCATTTCCAATCACTGGAATCGTTACGTTTTCTTTTAATTCTTTAATCAGTTCCCAATTTGCAGACCCTTTATACATTTGTACCGTAGTTCTAGGATGAAGGGTAATTGCTTTAATTCCGACTTTTTCAAGATTGATGCCAGCTTGAGTACTGACAATATTATTTAAATTCCATCCTGCTCTCATTTTAACTGTTACAGGAATACTTGGAACTGCTTTTACCACTGCTTCAGAAATATCTTCCATTAAACATAAATCTTTTAAAGCTGCTGAACCAGCTCCTTTTTTGGTTACTTTTGGGACAGGACATCCATAGTTTATATCAATTAAGTCAGGATTGAATTTTTCAAAGACAAGCCTTGCAGCACTTTCCATAACTTCTGGAGTATCTCCAAAGATTTGGATACCTATCGGCCTTTCAAATTCTGAAAACTTTATCATATTTAAAGTTTTTTCATTTTCTCTTATTATTCCATGAGCAGAGACAAACTCTGAATAAACTACTCCAGCCCCAAACTCTTTAGCTATAACCCTATAAGCATAGTCTGTTACACCTGCCATCGGCGCAAGAAAAAATGGAAAATCTATTTGAAGATTGCCGATTTTAATTTTTTTTTCTCTAAAGTTTTTCATATAGTTTTTATTTGATACACAATATTATTGAATTAAATTACCCTGCTAATTTAAACAATAACCATAAAAGGTAAACAAAATGGGAAAAATTTGTGAAGTGACAGGCAAAAGAGCAATGTTTGGTAATAATGTCAGCCATGCTCACAATAAAACTCGTAGAAGATTTGATGTTAACCTACAAAAGAAAACTTTTTGGGTAGAAAGTTTAAATAAAAAAATAACCTTAAATGTATCTGCTAAAGGTTTAAGAGTTATTGATAAAAAAGGTATTGACTCAGTGATTAAAGAATTAATTGCTGATGGCCGTAAATTTTAATCTTCAATAATCTTTTTAATTTCTTGTAATATTATTTTCGGATCTAATTTTTCTTTTGAAGATTTAACGGTCATTCCTACAAAAAAACCATACAGTTTATCTTCTCCACTTTTTAATCGATCCAATTCTTGAGGAAATTGATTAAAAACTAAATTAATAGCTTCTAATGTTAAATCTTTGTTCTTGTTAATGTAATATGAACCCTTCTCAAGAATTTCATTTAATTCAGAATTGCTATCAAACAAGCACTTGAGTATTTCTTTTGCATCATTATTAGTGATTTTGTTTTCAGAGACAAGTAATATTATTCGTTTTAAATCTTTAGGAGATATGCGATTGTCAAATTCAATATTGACTTCATTAAACAGTCTAAAAATTTCTCCGCTTATCCATTTTAAACCATCTCCAGGATTCACGCCTTCATCAAGCAAAAGTTGAAAATATTCACTTACTAATTTTGATGAAGTAAGCATAGTCACATCTTCTGTGGAAAACTTATAATTTTTTTTCCAAGCTACTTCAAGTTCCATTGGAGTTTTTATCATATCTTTAGCAATGCTGTTGATAAATTTTGAATCTATTATAACTGGAGGAAGGTCTGGATCTGGAAAATAACGATAATCATGTGAATCTTCTTTTTCTCGCATTATTTCAGCAACATTCTTACTGCTATTCCAAGTAAGTGTAACCTGTTTAACTTTTTTGCCATTACAAAGAATTTTATGTTGGCGAATAATTTCTGATTCTAGGGATTTTTGAACATTTCTGAATGAATTAATATTTTTGATTTCAGTTTTTATTCCAAGGTTTTGACTATTCTTTTTCTTCAAGGATATATTAGCATCACACCTAAGATTTCCTTCTTCCATCTTACCATTTGAAATATCTAAAAAATTGACTATTTGCCTAATTCTTTGAACAAAAAGTTTTGCTTGTTCAGGATGTCTAATACAAGGATTGGTAACAATTTCAATTAACGAGGCGCCACTTCTATTAAAATCAATTAAAGAAAAACTGTCCTTATTAATATGGGTAGATTTAGCAGTATCTTCTTCAAGATGCGCCCTTTGAAGGTATATATTCATTAATTTATCCTCCCACCAAATTGGTACATATCCCCCTGAAATGATTGGTTCGGTAAACTGAGAAATTTGGTAACCTTTAGCCAAGTCTGGATAAAAGTAATGTTTCCTTGAAAAAATCAAATTTTGATTAATTTCACCTTGAACAGTCAAACCAAATTTAATAGCATCTTGAATAGCTTTTTGGTTGATAGTTGGTAAGCTTCCGGGAAGCCCAAATGATGGAGGGCAAACTAGGCTGTTTGGTGGAGAATTATAAATATATTTAGAATGACCAAAAATTTTTCTTCTGGTTTGTAATTGAACATGAACTTCTAATCCTATAACTATATCCCATTCTTGATTGATTTGGTTTATTATATTCAACTTATGTTCTTTGAAATTTGATTTAGAGCGGATCCAGCTTTAAACCATCCAATTTGGTTTGACGAAAATGAATGTAAGGTTTCAATTTCATAAATTTGTCCATCAGGTTTTTTAAAAATCAAAACAATATTGTTTTCAGCGCTAAATTCTTCAAGATTTTTTGTCGATACTTCATCATAAGCACCTATTAAATCATAGTCATTTTTATTTTTGAACATTAAAGGAATAATTCCTTGTTTTTTAAGATTGGTTTGAGCGATTCGTGCAAAACTTTTTGCTAAAATAAGCTTACAACCCATAAATCTTGGCTCCATCGCTGCATGTTCTCTAGATGAACCTTCTCCATAATTCTCATCAGCAACGACCATCCAATCAATATTATTTTTTTTGTAATAATTTGCAACATCATAAATTGATTCAGTTTTTTCCTTTTCTAAATTAATCGCTTCACCAATTGAATTAGTGAATTCATTATCAGCACCAGAATACATATTTTGTGATATATTTTCAAGATGTCCTCTGAATCTTAACCATGGACCAGCTGGAGAAACATGATCAGTTGTACATTTGCCTCTAGCTTTTAAAAGAATTTTTAAACTTTGATAATTTTTTCCGTCCCAAGCTTGAAAAGGTTGAAGATTTTGCAGTCTTTGACTTTTAGGATCAATTTCAATTGTTAAATTATCATCACTTTTAGAAGAGATAAAATCATCAGAACTTAGTTCAACAAAACCTGCCTCAGGTAGTTCGGACCCTAATGGTGGATTGAATTTAAATTCTTCTCCATTTTCTAGTGGAATTGTATCAGTAATAGGATTAAAATCTAGTTTACCTGCAATGGCAAGAGCAGTAACAATCTCAGGACTTGCAACAAATGATTCAGTAGCAGCATTGCCGTCATTTCTCTTGGCGAAATTTCTATTAAATGAAGTAATGATAGAATTTTTTTCACCTTCGCTTATATCTGATCTTTTCCATTGACCAATACATGGACCGCATGCATTTGCTAGAACTTTACCACCAATTTTTTCAAAAATTTCAGTATAACCATCTCTCTCCATGGTAGCTTTGATTTGATTTGATCCCGGCGTTATATAAAATTCAGATTTTGTCTTTAAGCCAGAGTTCAGAGCTTGTTTAGCAATGTGTGCTGCTTTTTCAATATCTTCATAAGAAGAATTTGTACAGCTTCCAATTAAGCCAGCTTTTAAATTATTTTCATATCCATTTTCTTTGATTGCTTCAGGCATATCAGAAATTTTTCTTGAAAGATCTGGACTATATGGACCGACAACGTGCGGTTCTAATTTTGAAAGATTTATTTCAATTACCTGATCAAAGAATTTTTCAGGAGATTTATTTACTTCATCATCAACTTGTAATTCATGCGCAATTTTATTTGCAGCAAAAGCAATATCTGATCTTGAAGTAGCCAACAAATATCGCTCCATAGATTTATCATATGGAAAAATTGAAGTTGTGGCACCGACTTCAGCTCCCATGTTTGTAATGGTTGCTTTTCCAGTGCAACTAATAGTTTTAGTTCCATCACCAAAGTATTCTATTATTTTGCCAGTTCCCCCTTTGACGGTAAGGATTCCCGCAAGTTTTAAAATAATATCTTTCGGTGAGACCCATTCTTTTAATTCTCCCGTAAGTTTTACGCCAATAATGCCTGGCCAATTTACCTCCCATGGAGAATCGGTCATGACATCTACTGCATCAGCTCCACCAACACCAATCGCTAACATTCCAAGTCCTCCAGCGTTTGGAGTATGCGAATCAGTTCCAATCATAAGTGAACCTGGGAAAGCATAATTTTCTAAAACTGTCTGATGAATGATTCCTGCACCAGGTTTCCAAAAGCCAATCCCATATTTCTTACAAACAGAGAGCAAAAAGTCATAAACTTCCTTATTGGTTATCAGAGCGTTTTCAAGATCATTATTCGCACCTTTTATGGCAGTGATTAAATGATCACAATGGACAGTTGTTGGTACCGCAGTAGTTTTCATTCCTGCATTCATAAATTGAAGTAATGCCATTTGAGCCGTTGCATCTTGCATTGCTACTCTATCAGGAGAAATATTAACAAAAGTTTTCTGTCTAACTGGTATTTCATTTAAGTCATATGTTAAATGAGAGAATAATATTTTTTCTGTATACGTCAGGGGTCTACCAAAAAAACTTCTAGCATTATTTAGAGATGATATATATTTAGAATACGTTTTGTTTGTTAAATCAATTAGATTCATGATAATAATTTAGTTAAAGTATGCCAATAATTTTAGCATCAAGTTCACCAAGAAGAAAGAAAATTCTAACGAAATTAGGATATAAATTTAAAGTCGTCAAACCTCAGATTGATGAGTCAAATTCTTTGAGATTAAAACCTATTGATTACGTTGAATATATTTCAAAGCTTAAAGCAAGGAAAGTGTTTGATTCGTATAATCAGTTTGATGTAATTGCTGCTGATACAATTATTGAGTTTCAAAATAAAATTATTGGTAAACCAAAAGACAAAAATAATGCAAAAGAAATTTTTCTTTCTTTATCAAACAAATCTCACAATGTAGTTACCTCTTTGACATTTAAAAATATTGAAATTGAAAAAACTATTACTGACTCTACGAAAATTACTTTTAAGAATTTGTCAGACGATTTAATTGATTATTATATTCAAAATTTCAATGTTTTGGACAAAGCAGGGGGATACAACATCGATCAATCTTTTTTTAAGGAGAACTTTGTAAAAAATTATGAGGGATGTTTTGAAAATGTCACAGGATTTCCAATGACTATGTTTTTTGAAAAAAAAATAGATAAATTTATAAAGTGAATTTTTATAAAAAATATCAATCAATCAGAAAAGAAAAAGGTCTAACTATTGATGATATATCAAATCATACCAAAATTGATGGAAAATATTTCATTTTAATTGAAAAAGGTAAATTCGCAGAAATATCACCTGTTTATCTCAAGTTATTTTTTAAAGCATATGTAAATTTTTTAAATCTTGATGAAAAGGAATGTTTGAATGATTTAAATGACTTTATGAATTCTCCATCAACCAATTTTGACATTTCTAATAAGAAAAAAAATAATATTTACGAATATAAAAATTCGACTCAAGCTTTAAATTTTTTAAATAGTCAAAATTTATTTAATCGAAATATTTTTTTGGGAGTAGCCTTAATTTTGTTAATATCTCTATTTCCACTTTTTTTATCTTCAGAAAATAGTGAATCTTCAGACTATGAGAGCCAGTTGAGATTAAGTAGTCAATCTTTATCTCAAAATTACCAGCTCAGATTTAATGAAATATCTTCAATAGAAGATCTTAAGCTACCCGTCAAGATTCGAATAATTTCGAAAGATGAAAACTATATTTCTCATATTAAATTTTCGAATCTCTTAGAAGAAAATAGTGAATATTTTATTACTCAATCTAAAATAAATAAAAAAGACAATACTTTACTTTTTTCTTGGGATGAAGCCGATTCATTGTTGTTTCTGATTGCTAATCCTTCGCAACTTGAATTTTCAATGTTTTCTGATGACTATTTTAATGATTTATCAGACAGTATTTTAAATGACTTTCCTGTGAAAGTTCTGTTAGAAAAAAACCCATTTTCTATAACAATCTCAAAATACATTCCAAATAGATAAAACTTTCCAGTGTTTTTATTACAAATTTATTGACATAGAAATAAGCATATTGTAAGATAAGTGGTTAAATGTGGGTTAAATTCCCTTAACTATTATGGCTAATCAGTATACATTTATAGGACAATATTCTTACCAAATCGATTCAAAAAATCGAATCAATCTACCTTCAGATTTTAGAAAGCAATTTAAATCATCTGAAAAAAATACATTTGTTATTACTCAAGGTTTAGATCAGTCTTTGTGGATTTATCCAATAAATGAGTGGAAAAAAATCGAGAATGAACTTTCCTCCTTGTCTTCAATTTCAAAAATAAATCGATCCTTTCTTCGTAATTATCTAAGAAATGCAAAGATTATTAGTTTTGACAAACAGGGAAGGTTTGTTCTACCTGAAAATCTTTTAAATTTTGCTAAAATATCAAATAATGTTTCAATTATTGGTGTTTTGAACAGAATCGAAATATGGAATCCTGAAGTACTGAAAAAAATTGATAATGAAAAAATCGATCATCTTCTTTTAGACTCCCTAGCAGAGAAAGTCAAAATTTGATGAAAAGTATTCTTCCTACTAACATGAATCATATACCTGTTATGCTGGAAGAAACTCTTGAAAACCTCAATATTAAAAAAGCAAAAATTTTTTTTGATGGAACTGTTGGATTTGGTGGTCATACAGAGGCTGCAGCTAAAATTAATGATGAATGTTTTATAATTGGAGTTGATCGAGATTTAGAAGCTTTAAAATTTTGTGAAAAAAATTTGAATAATTTAAATATTTCTCTTCATCACAATTCTTATGAAAACATTGATTTAATCTTAGATCAAGAAAAATTAAAAGACGTTCATGCAATTCTTCTAGATTTAGGACTCTCATCTTATCAACTTGATAATTCTAGGAGAGGATTTTCTTACAGAGATAATAATGCTCTAGATATGAGATTTGATAGCAACTCAACCTCAATAACTGCATCTGAAATCATTAGTAATTATAATATTAATGAGCTAACAGCTATTTTTAAAGAATTTGGAGAAGAGAGACATTCTTTTTTAATTGCAAAAAAAATCAAAGAAAGGGTAGATGAAAATCAAATTAATAGTGAATTAATCGTTGAAGTAATTAATTCTGTAACACCTTTTAAGTATAGAAAAAAAACATACTCAAGAATTTTTCAAGCTTTAAGAATTGAAACTAATAATGAGCTAAAACATCTAGAGAATTTTCTTGCAAAATTTATAAACTTCTTGACTCCAGGAGGAAGGGTTGTAATTATAAGTTATCATTCCATCGAAGATCGTCTCGTTAAACAATCTTTTAAAGCATTGCATCGAGATGGAAAGTTAAAAATAATTACTAAAAAACCCTTAATTCCTTCAGATAATGAAATTTCAATCAACTCAAGATCCAGAAGCGCTAAGATGAGAATCGGGGAAAAAATTGGCTAGAAGAGTTAAAAATAGAATATATCAAAGCAGAAAAGAAAATATCAAATGGATTGTGATGTTAACTATCACCATCATAACACTTGTAGTTTATCTATATTCCTTTATTGAAATTGATAAAGCGCATTCTAATTTAGTTTTTAAGAAAAAAACATTAGTTCAACTTGAGGATAACCTTAATAAAGAAATAGCTGCATTAGAACTTTTAAAAAGGTCAGATAATATTTCAAAAAGAGCTCAAAAGATAGGAATGATTCATTCAAAACCAGAAAAAATAATAATTAAAATTAATGACTAAGAATTATACAAAACTTAAAAATAGAATTATACTTGTTACGCTGGGGTTTTTGTTTACGTGGGTTTTATTTGCCGTAAAACTATTTTCTATTCAAGTAATAAATCAATCTGAAAATATTCAAGGAATAAGAACTGAAGTGTTAAAAGGAAAAAGAGGTAATTTTTTAGATTCTCAAGGAAATTATTTAACTCAAAATTTGTTTTATTACGACATTGATATTTTCCCTAAAAAAATAAATGATTTTAATAATATTTTATTTGATCTATCAGAATGTACTGGTACAGATATAAAAATATATTTTTCCAAAATTGATAATTCCAGAAATTCAATCACCTTAGAAAAAAAATCCGAAAAAAATTGCGAATTTCTTCAAGCAAAATATCCTTCATCTCTTTCAATTAAACGAAATTATAAGCGTTTTTATCCTGATGAAAATCTTTTCGGACAAATCATTGGATTCACGGATATTGATGATAACGGAATTTCAGGTTTAGAATATGAATTAAATAGCAAGATTTCTCCTGAAAAAATTCAAAATGCATATAAAAATAATGGATTAGGAAAAAGGATTTTAGATCCATCATTTCCAATAAGAGAGCCAGATAGTGGCTTAGATATTAAGCTCTCACTCAATCGCGAATATCAAGCAATTCTTCGAGAAGAGCTTTTGAATCAAATTGAAAAAGTTGAAGCGAAATCTGGAATGGGTATAATAATTAATCCTCAAAATGGCAAAATACTTGCAATGTTAAGTGTTCCTGATTTTAATCCAAATAATCCAAGTAATTATGATTTATCCTACCACAGAAATCGAATCGTTCAAGATATGATTGAACCAGGTTCAACGCTTAAAATAGTTACTATTTCTTCTGCATTAAAAAATGATAAAAAGTCCTCTGATGAATATAATGTAGAAGGCCCATATAATTTTCATAATATTAAAATGATAGAAGACTCAGAGCCTTATTCAATCTTAAATATTAAAGAAATTCTTGGCTATTCAAGCAATATAGGTACGATTAAAATTGCTGAAGAGTTAGGTAAGGATAAGATTTATAATCAGTTAACAGATTTTGGTTTTGGATCGAAAAGCGGAATAGAGAATGTCAATGAAGCCAGTGGCTTTGTTAGAAAAACAAAAGATTGGACTCTTTCTTCAATGTATAGCATACCAATGGGCTATGAGATTTCTGCTACACCGCTACAATTAGCAATGGCTTATTCCTCTATTGCAAATGGAGGATATCTTCTAAAGCCAATTTTAGTTGATGAAATTTTAAAAAATGATGAAATAATTTTTAAATCAAAAAAAGATATCAAAAGAAGAATACTTTCAAATTATGAATCAAAAGAATTAATAGAAATGTTGTCTTTTACTGTTCAAGAAGGAAGTGGGAAAAAAGCAAAAATTAGCGGGTGGAATGTAGCTGGCAAAACAGGTACTTCAAAAAAATTGATTGATGGAAAATATTCTGAATCAGAATTTATTTCAAGTTTTATAGGATTTTTACCCGCTGAAAATCCTCAGCTTTTAGCATTAATAATTATTGAAGGAGCAGAAAGCAAAAAGAATTATCATTGGGGTTCAATTGCTGCTGCACCAGTTTTTGAATCAGTAATAAAAAGAGTGATAAATATTGATCCATTAAGTATTGAAATAGAAAATGATGAGTTAAGAAAAAAAGAACTAAATAAACCTATTATGATTCAAAAAAATATAGAAAAAAAACCTCAAGAGTTGGTTTCAATGCCTAACCTAATTGGAAAAAATATAATGGAGGCTTTTGATATTTTGAGAAAAAATGAAATCAAAGGTCAAATTAGTGGAAGCGGATTAGTTGTGTATCAATCAATCTCTGCTGGAGAAAAAATTGAAAAAAATTCAATATGTATTATTAAAGCAAGCACAGAATAAAGGAGAATAAAATGTTATTTGAATTCGATAATAATTTTTCGGAACAAAAAGCTAAGATAAAAGTTGTTGGGGTAGGAGGAGCTGGAGGAAATGCAATTAATCGAATGATATCTTCTGGGATGGAAGGTGTTGAATTTATTGCAATAAATACCGATGCCCAAGATTTAGAAAGTAATCCCTCAGAGATTAAAGTTCAAATTGGAAAAGAATTAACTAAAGGATTGGGTGCAGGAGCAAAGCCAGAAATTGGTCGTGAAGCCATTCTGCAAGATAAAGAGAAAGTTTCATCATATTTAGCTGGAGCTGATATGGTCTTTGTCACTGCAGGTATGGGAGGGGGAACGGGAACTGGAGCAGCTCCTGTTGTAGCTAAAATTTGTAAGGACTTAGGAATTCTTACAGTATGTATTGTCACTTTACCTTTTGGATTTGAAGGTCCATTAAAAATGGAAACTGCTATGAAAGGGGTACGTTCAATTAGAAAATTTTGTGATACTTTGATAGTTATACCAAACCAGAAGCTTTTATCAATAATTGATTATAATACTACTCTTGAGGATGCATTCAGTGAATCAGATCTTATTTTATTAAATGCTGCTCAAAGTATCTCTGACTTAATTCATAAACAGGGCAATATTAATACTGACTTTGCTGATGTAAAAACAGTAATGAGCGGTCAGGGAGAAGCTATACTTGGAACTGGAATAGCAAAAGGAGAAGAAAGAGCTGTTTTAGCTGCCCAACAGGCAATATCGAGTCCTCTTTTAGATAATCAGTCTATTGCAGGAGCCAAATCTGTTTTACTAAATATTACTGCTAGCAAAAATCTTAAAATGAGAGAAGTAGAGTCTGCTACACAATTAATTTATGAAGAAGCTGGGCCTTCAGTAAAGGTAATCTTCGGCTGTATTATAGATGAAAAAATGGGCGAAGAAATGAAGGTAACCGTAATTGCAACAGGACTTGAAAAGAAAGATAAATTGGAAAGATCCTTCTCAGATAATGAATCTATTTTTGATGAAGAAGATGATTTTATTGAAACTTCTAGAAATTTAGTTCATATGAAAAGTGTTAATTCAATTGAGTTAGCTGACGATGAAGAAGAAGTTGAAGAAGAAAACGATGGGCCTACTCTTATTTTTGATGATTTTGATCAAACAGCAGATTATGATGTTCCAGCATATTTGAGAAAAAAACATATTTAATGGACCTTAAGGGTAAAAATGTTGGAGTCTTAGGACTCGGTGTCAGTGGTTTTTGGTCAGCAAAATTAGCTAAATCTTTAGGAGCTAATGTTTTTTTATCATCCATTGATAAAAATGAATTATTTGCTACAGAACTAGCAAATCTTGAGATTGAAACTGAATTTGGTAATCATTCAGAAAGAATACTAAGTTGTGAATTAGTAATTAAATCTCCTGGAATATCAAATCAAGCTTCAATTATTAAATCTATAAAAAGCAAAAAAATTGAAGTTTTGGGAGAAATGGAATTTGCTTATCAGTGTTCAGACATAAAAATCATTGCTGTAACTGGCACTAATGGTAAAACTACCGTTGTTTCTATTTTAGGGGATTTTTTACGAAATCATTTTAATGTTCTTGTTGGAGGAAACATAGGAGTTCCCTTTTCTCAATTAGTATTAGAAAATAAGTTGTTTGAAAAGAATAATTACGATTTTGCCATTTTAGAAGTTTCAAGTTTTCAATCAGATGATTTTAAACTTTTCAAGCCTAATATTGCTTTAATTTTAAACTGTAAAGAAGACCATTTAGACATTCACAAAACATTTAATGAATACAGAGATGCAAAATTTAAGCTTTTTAAAAATATGAATAAAAATGATTATGCGATTTATAATTCATTCGAGAACTCAATAATCGACTTATTTCAAAATTTAGCTGAGCAAACAAATGTTTTACCATATTCTTCAATTAAAGGAAAATCAATTTATTACATTAAAGATTCTCTGATTGTAAAAGACAACGAAATTTTAAAATCAAATTTTAATTTTTTAGAGACTTCGAGCTTTACTTTTGAAAAAAGACAATTAATACTTCAATCTAGAAATGATGTCGAAAATTTTATAGCTATTTCAACAATCTGTTTGATTTTAAAAATTTCAGAAAAGAAAATATTTAACTATCTAAAAAAATTTCAAGGATTAGAACATAGATTTGAAATTTTTAAAGTTGTTAATCAAGGTAATCAAAAAATTACATTTATAAACGATTCGAAGTCAACAAATGGGCTTTCTCTTCAATCGGCTCTTTCAAATTGTTTTGATATCCAACTAGAAAATATTTGTTTAGTGATGGGCGGTAGATCAAAAGGAATAGATTACTCTGAATATTTCTATTTTCCTTTAGGGAGAGATCATATTCGAGTTTTTGCATATGGAGAAGCTGCGAATGAAATCAAAGAAAATTTATTGTCCTCTGTCAATGATAAAAAACAATTCCCTAAAGTAGAAATTTTTGAATTGTTCTCCGATGCAGTTAAAAAAGCAATAGAAGTAGCTAAAGGATTGAAAAATGGAGCTGTGCTTTTGTCTCCTGCCTGTTCAAGTTTTGATCAATTTAAGAATTATTCCGAAAGAGGACAGAAATTCAAAATGATTGTAAGGGAGCAATATGAATATTAAAAAATTAAATCAAGATTATTATTTATTGGGATCAATTATTTTCTTAATCATTTTTGGCCTCGTGATGCTTTTTAGTGCTAGTTGGGTCAAATCTCTTGAAGTAACAAATGGGGAGTCAAGGTCGTACTTTTTTTCCAGTCAATTGCTAAAATTTCTTCCAGCTTTAATGATTTTTATATTTTTCAGTTTCTTTAATTATAGAAAGTTGCAAAAAATTGCAATACTATCTTTAATTACTACATTTATTTTGCTTCTTTATACAAAGCTTCAAGGTTGTGATTTAGATTCATGTAGATGGCTGTCTATTGGACCAATTTCATTCCAAACATCAGACTTGGCTCGATTTTCAATAATTTTATTTCTGGCTGACTATATAGACAAGAATCAAAAGAAAATGATTAACTTTGATAAGGGAATTTTAATTCCACTTCTTTGGATTTTACCTTCTTGTATTTTAGTGTTGCTGCAACCAGATAATTCTACCACTTTGATTATTATGTCAATTGCAATAATAATGCTTTTTATTGGCGGAGCCTCTTTCCCTCAAATACTTACTATTTCAATTCTAGGAATATCTTCAGTTGGTTTTATGCTCCTCAATAAAGGAAACTACGCATTATCGAGAATCACTTCTTTCTTTAATGAATCAAGTGTAGTCAATTACCAATCCGATCAAGCAATCATTGGATTACAGCAGGGCGGTTTTTGGGGGTTGGGGGTAGGAAAAAGTGTTCAAAAATATAATTATTTACCTGAAACACATACGGATTTTATTTTTGCTATTATAGGAGAGGAGTTAGGTTTTTTTTGGGGGATGATGCTTATTTTGGCATATGCTTTTATTTTAATCAGATCAGTACTAATTGCAAAAAGATCAAATGATATTTTTGGAATAATGCTATCTTTAGGTTTTGGAATAAGTATTACAATATACGCCTTAATTAATATTGGAGTTGTAATAGGATTATTACCTGTTACAGGAGTTCCTTTGCCATTTATTAGTTATGGGGGTTCATCATTTTTAATAAATATCTTAATGATAGCAATATTGTTAAATATTAGTAAATCAAAAAGAGAGTTTAAGCTTAAAAACTGGCGTCTAAAAGTTAATGCATAAGACAACTATATTTTTTTGTGGAGGAGGTACTGGAGGACATTTTTTCCCATTAATTGAAATTAAAAGGGGCTTAGAAAACACCTTGAAAAACTCTCAATTCTTTTATTTCGGCTCATTAAGAGGAATTGAAAAAACTAAAGCATTTAAAGATTTTGATAATTCTTTTATGTTATTGAAAATTTATGGATTTAAAAGAAAAATAAATCTAATCAATATTTTGAAAAATTTATTTTTAATCCCTTTAGTCTTAGTGGGCGTTTGTAAAGTATTTATGAAATTCATAGAGCAAAATCCTAAATTGTTGATAGCCACGGGAGGCTATGCTTCTTTAATTCCTTTGATTGTTGCTAAAATGACTTTTACACCATATTATATTCAAGAACAAAATTCATACCCAGGTATTGTTACAAGATTATTTCATAAAGGTGCCAAAAAGGTTTTTCTAGGTTTTGAAAACGCAGAAAAATTTTTACAAAGTAGTTTAAATACTTTAGTAACTGGAAATCCTACTAGATTTAAAAATCATAATATTTTTCAGAAGAAGGAAAGTTCATTGAAAACTTTAATGATATTTGGGGGTAGTCAGGGTTCTCAAAATATAAATTTAACCATCGAAGAAATGATTAATAAAAACGCTTTTAAAAATTTTCAAGTTTTTTGGATTGTTGGTAAAAATAATTTTAACAAATTCGAAAAGTATAATTCATCATCGATAAAAGTATATCCATTCGTTGACAATATTGAAGAATTTTACTTCAAAACAGACTTAATTATATCAAGAGCTGGGGCTATGACAGTTTCCGAAATCATAGACTTCCAACTTCCTTCAATATTAATTCCACTTCCAAGTGCAGCAGAGAATCATCAGTATTTCAATGCAAAGTTTTTAGAAGAAAGAAATTGTTCAATGATCATTAATGAAGAAAATTTGAATAGTGTAATTTTAGAAAATCAAATCAACGCTATTTTTTCAAATGAAAGAATAATTAAATCAATGAAAAACAACTTTTCACTTCTTAATAAAAGAAATTCAATCAAATTAATAATTGATACATTAATTGAGGACATTAATGCTTAGTCATTTAAAGAAAATCCATTTTATTGGAATAGGTGGTATAGGCATGAGCGGGATTGCTGAGTTATTACATAAAAAAGGTTTTATTATATCAGGATCTGACATTAGCAATAATTCTAATATTGAAAGACTTCAAAAGATGAACATTCAAATAACTACTGAACATCTTGAAAAAAATATTGCAGGTAAAGACCTTGTAGTTTATTCCGATGCAATTCCTTTTGATAATTGCGAACTATTAACTGCAAACAAACAAGGAATTTTATGTTTTTCTCGAGCTAAAATGCTCTCTGAAATTTCCAAAATGAGTAAAGCAACCATAGCAATTTCAGGAACTCACGGAAAAACTACTACAACATCAATGATTGGTACTATAGTAAAAAATGAAAATTTAAATCCAACAGTAATAGTGGGTGGAGTGGTAAAGTCTTTTCAAACAAATACTTTATTAGGATCTGGAGATACTTTTATTGTTGAAGCAGATGAATATAACAGAACTTTTTTGCATCTTTCACCATCAATTTCTGTAATCAATAATATTGATTTTGAGCATATTGATACTTATCAAAATCTAGAAGACTTGAAAGAAGCATTTGTTGAATTTGCTAACTCAACACAGTTTCACGGTATTGTTGCGATTTGTTCTGATTCAGAAAATGCAAAATCAATTATTCCAAAAATTGATAAAACGATTATTACTTATGGAATTCACGATAAAAATGCTGATTTTAGGGCAGAAAAAATATTTCAAAAAAATGGAAAAGTTTCATTTGAGGCAATTTTTAGAAATAATAAAATTAAAGTACGTTTAAACATCCCAGGGGAACACAATATTTTAAATGCATTAGCAGCTTTAGTGGTTTGTGATTTTATGGGCTTAAACCTAGAGCACATAACAAAAAGTTTAAATGAATTTTCTGGAGTTAATCGAAGATTTGATTTTCATAGAAATGAAAATCAATTGATGATAATAGATGATTATGCTCATCATCCCGTTGAAGTGAAGTTTGTTATTGATACTATAAAAAAGAATTGGAATCGAAGATTGATCACAATTTTTCAACCTCATTTATTTTCAAGAACCAAACAATTCTATAAAGATTTTGCCAAAGCCTTAAAAAGTTCAGATGTTGTATTAATCACTGAAATTTTTGCCTCGCGAGAAAAGCTTGATAAATCTGTTACCTCTAAATTAATTGTAGATGAAATGAAAAAAATAGAACACAATAATGTTCAGTTTGTTGAATATGATAATGTTAAAAGCGAAGTTAAAAAACTATACCGTTCTGGTGATATCATTTTGACTGCTGGAGCTGGGAATATTTGGAGAAAAGCTATAGAATTAAATCAATTTTTGATAAAAAATGATTAGTATTAACAAAGAACTCCAAAAAATTTCAGGTTTAATTGTTAAAAAAAATGAACCAATGAACAAGTATACAACTTATGGTATAGGTGGAAAAGCTGAGTTCTTTGTAATTCCAAAATCGAAACAGAGCTTACTCGAAGTAATTTCCTTATTGAAAAAAAATAAATTAAAATATTTTATTCTAGGTTCAGGATCCAATTTACTGGTTAGTGATAAGGGGTTTGATGGTGTCGTTATCTCAATTAAAAAAAGTCTTGAAGCAATTAGAATAGAAAATTCTAAACTATATGTTGAATGTGGAGCTATGCTGGGAACCGTTGTTAAGGAATGTATCAAAAATAATTTATCAGGCATTGAAAATTTAATTGGAGTACCTGGTACTTTAGGGGGTGCCCTTGTAATGAATGCAGGTGCATGGGGAGGAGAAATATCTGATAAACTTGAATCTGTTGAAATAATTGATGATAAAAATGAAGTAAAAATTCTTCAAAAAAAAGAAATTGATTTTTCGTATCGACTTTCTTCTTTTAGTAATAATGAATTTCTAGTTTCTGCTACTTTTAACCTTGAAAAAAAAGATAAAACAGAAATCGAAAAAAAATATGAATTGGCTAGGCAGGGAAGAAAGAATTCTCAACCTACAAATGTTCGTTCAGCGGGTAGTGTTTTTAAAAATCCTCCAGATAATTCAGCTGGAAAGTTAATTGAATTATGTGGATTGAAAGGATATCGAATTGGAGGAGCAGTTATTTCAGAAAAACATGCTAATTTTTTTATAAATGAGGAAGGTTCATCTGCAAGCGATATGATGAATCTTATCAAATATGCTCAAAAAGAAGTATTTGAAAAATTCAATATTGAATTAGAAACTGAAGTTAAGTTTCTTGGTTTCGATTAATAAAAAAACAATGATAAATAGCAGGTATATAGAATTAACGTTAACTATTTTGGCAATTTCAATAATTGTTTTTTTATCATTTAAGTGGACTGACAAAAAAAATAATAATTATCCTATTTTATTAGAAGTAGCTGGGGCCAAAAACTTTAATAATGAAGATATTTTAGCTTTTGATTTTGGTGAAGATTCAAATTTGTTTAAAATTGATTTAAAGTATTATAAAGAAAACATTGACTCAAAGCCACATATAAAAGATTCAAAAATTTTTAGATCATTTCCCTCAAAAATACAAATTAATTTAATTGAAAGAAATCCTATTGCTGTAATCATTTCAGATAATTTTTTTATCATCGATTCAGATAATATTTCTCTTCCATATGTTAATTTCGACTTAACACTTCCTGTTTTAACAAATTTTAAAGATGATTCAGATTTATTTACCATTGGCGAAGAAGTTCAATCTCCTTCAATAAGAACAGCAGTAAAAATTCTTAATCAATTATATAAAGATTACACAGATATTTATTTTTCTATTTCTGAAGTTAGTTTTAACGAAAATGAGGAATTTGATTTAATTCTTAAAAATGGAAAAACAAGAATATTTTTAGGAAAAAGTGATTTTTATTTTCGCTTAAAAAAACTCAATTCTTTTAAGAAAAATATTGAAGAATATAATACACTAGAAAAATATAAGTATGTAGATTTGCGATATAAAAATCAAGTAGTTGTAAAAGAATCTTAATGAATAGAAATATTATTAGAACCGCTTTTGATATAGGAAGTTATCAAATTAAAGGTCTAGTTTTTAGAATTAGAGAAGATGACTCAATTGAAATATTATCTTTAAAATCTGTTATTTCTAAGGGTATTGAGAATGGAAATCTTGTTGATAAAGATCAATTCATTCAAATAATGATTGAGTTGGTTGAATTACTTGAAAAAGACTCAAAAGTCTCTATTCAGGATGATGTCTTTATTACTCTTTCAGGTTCAAATATTAAATCAGTTAATTCATCAACAAGAAAAAAAGCAAAAGACAATGAAGAACTGCTTGTAGATAAAAAATTGAAACAAGAACTCTTAAATCAATGTTCTGATATCCAAGTATCTTCAGACAGATATGTTTTACATAATCTTGATCAAGGATTTTTTATTGATGGATCAACGTTAATCAGAAATCCTATTAGTATGGTTGGTAAAACAATCGAAGCGAAATCTCATCTAATTCATGTTCCAAATTTTAATATGAAGCAAATCAGTTTCTGTTTTGAAAATGAATTGCAAATAAAGAATGTGATGCCTGTTTTTGATGGACTAGCTGGAGCAGTATCTGGCCTTTCTGAAGATCAGAAAAAATTAGGAAGTATTTTTTTAGATATAGGGTCTGATAAAACTAACTTTGTTGCTTTTAAAGATAATTATGTTGTTTTTTCTAAGGTTATACCTGTTGGAGGGAGTTTAGTTACTAAAGATATTGCAGCTTATTTGGGATGCTCATTAAAAGAAGCTGAAGAAATTAAAAAAACTAAAATCTCTTCTTTTGCTAGTCTTGCAGATGAAAATGAAACATTCGAAGTTGGATTGATTGATGATGAATTAACAAAAAAAGTTAATACAAAAGAAATATCTAAAATTGCTGAATTAAGATATGAGGATATTATTGACCATTTAAAAAACATTTTTCGTATAAATAGTAAAGAAATTTCTGAATTTAAATCGGGGATTAAACTTTCTGGTGGAGGTTCAAATATTAAAAATATTGACTTACTTTTTAAAAACCACTTCCCAGGTCTCAAAGTAGAGCTTATGTCGAATAAAAACATTCATTTTAAGGAAGACTTATCCGAAAAAAGAGAGCTTGTAAACTTGTTTGGATTATCAAAGTGGTTAATTCATTCTGTTGATGAGGATGGTCTTTATGATTATTCTGATTCCAAGTCTAATTCTGTTATTAAAAAAATATGGAATTCTATCCTAAATTTTTTTGAATAATTTTTTAGCAATTTTTAAAAATTTTTCCCTTCTAAACAAATTGCCTTCACAATATTTAATCAATATATTTCATCCAATGAGCAATTATTGGGAAGATTTTAAGAAAAATTTATCTGAATGGAGCATTGTTGCATCTGAGAAAGCTGAAGAGTTTACTCATAATAGCAAACTTCGTTTAGATATTTTACAATTAGAACGAAAATTATCTTCCAAGTATATGAAGCTAGGAATTTTTGTTTTTGGTAAAACGAACGAGAAAAATATTTCTAATTTTGTTGGTGATGAAAAATATCTCTCATTGATTGGGGATATTAGTGATATCAAAAAAAAGATATCTGATATTAAGGCAGAAATACATTCTTCAGGTGATATAAATAATTCGGAAGAAGAATGAAGAAAAAAATATTTTCTTTCCAATTAACTGCTGAAAGCAAATTACATCAATTTCATTTTTCACTATCAAATGTATTGATTTTTTCTTCAATTTTTTTTGTTGTCCTTTTGATTTCTAATTATTATTTATCAAAAAGTTTTTCAGAATCATATTATGCTGATCAACTGAATGCAACTGATTTAAAATATAAGTCAATTTCAGAAGAGCTATTACTTCGTATTTCAGAATTGGAAAATGATATTAAATCTTTTGAAGATAGAGACAAAGAGTTAAGGACTTATGCTGAAATGCCTCCAATCAGCGAAAATCAAAAAACGAGAAATACAGGTGGATCCATCAATAATGAAGACTTAAGTGATAATCCAAATTTTTTAAATGATTTAACTAAAAAAGTAGATGATCTATCATTTTCCATCAAAATGCAAAAAGATAGTTATGATAAAATATTTAGTAAAATCAAATCGAATGAAAAAATGTACTCGCATATCCCATCTATCGCACCTGTAATTGGCTACATAGGTTCAGGATATGGACATAGAAAAGATCCTATTGATGGAAAAAAAAGACTTCATAGTGGATTAGATTTTTCTGTGAACTTAAATACTGATGTTATGGCAACTGGTGATGGAGTAGTTAAAAAAGCTGAGTATGATTCTGGGTGGGGAAGATATATTAAAATTGATCATGGTTATGGTTATGAAACTGTTTATGCTCATTTATACAAAATTTATGTGAAAAAAGGACAAAAGGTTCAACGTGGTGATGTTATTGGAAAGTCGGGTAATAGCGGAAGAGCTGCTGGTTTTCATTTACACTATGAAGTTCACAAGAACAAAAAATCTGAAGATCCATCAAAATATTTTTTCACAGGATACATTGATTAGTTAAAAATTTAAACTATGAACAATCATCTTAATAAATCATACTTGATTGA
>sequence10
AAAAAAATTGTTCCTCTAGAAAAAAACGGAATCAAATTAATGAGCTTTGGATTTATCAGCGGGAATCAAGCGCCAGTTATTTGGAGAGGGCCATTAGTGGCAAAAATGACTGAGCAGTTTTTTCGTGACGTCGAGTGGGGAGAGTTAGACTATTTAATTCTAGACCTTCCACCGGGAACTGGAGACGTCCAGCTTACTCTTTCGCAAAAAATTCCTATGGATGGAGCAATTATTGTGACAACACCAAACGATATTTCTTTAGCTGACGTAAGAAAGGGCGCAGATATGTTTAATAAGGTTGGAACAAAGCTTTTGGGCGTAGTCGAAAACATGTCTTACATGAAAATTTATGGAGAAATAAAAAACGCCAAAGAAGATTCGAACATAACCATTAATAATCATCTGGTTAATGTTAAAGCTGACGGAACTTTTGAGTTTAACTATAGTTTATTCAAAAATGGTGGAGGAAAAAGTGAAAGCGAAAGATTGGGAGTTTCAATGTTAGCACAAATTCCATACAGTCAAGATCTTATGTTGTCTATTGACCAGGGGACTCCAATTGTTTTTCAGGACAACAGTAGTGATGTTGTAAAAAGCTTTAATGGTTTAGCGCAGAAAATTATAGACAATGCCAATTCTGAGTAAAGAGCTTAAACATATTGCCATTATTATGGATGGTAACGGGAGATGGGCTCTTCAAAAAGGAATGGACAGAGAAGAAGGACATATCGAGGGCGCTGAAACTGCCAAAAAAATAATTCAATTTTGCTCCAACATCAGGTTGCCATACCTCACCCTTTATGCTTTCTCAAAAGAAAACTGGAATAGACCTAAAAGAGAAGTATCTAGTATAATGAAGCTGCTTTCAAAAATTATAAAAAAGGACTTACAAAGCTTAATGGATCTAAATATCTCACTTCAAATTGCTGGAGAAGAAAATGAGCTGCCTCTACATGTTCGAAAGGCGCTAGAATTAGCCATTCAGAAAACAGCAAATAATACAGGAATGAAAGTGATATTGGCATTAAGCTATAGCGGAAGAGAAGAAATAGTTTCTTCTTTGAAAAAAATTATTAATAATAAGAGCAAAAATATTAATGAAGATTTAGTTGAAAAACACTTATATTGCCCCGAAGTTCCTTCTCCAGACATTCTAATAAGGACCGGTGGAGATAAAAGAATTAGTAATTTCTTGTTATGGCAAATTGCTTATTCTGAAATTTTTTTTGAAGAGGAGCAGTGGCCAGATTTTAGAGCAGAAAATCTATCAAATATTATTGAGAGGTTTTATGAAAGAAAACGTACATTTGGAAATATAGCATGATTAAAATTGTAACCAGACTTCTTCTCGCGCTGTTTTTTTTATCCCCCATTTTTTCTCAAGACGTTAGTTTGTATAGAGTGAATGTGGTTGGAAACCTGACCACGTCTGACAAAATGATAAAGTATTCTTCTGGTCTTAGAGATGGTTCAAAAATTCAAAGAGCAGATATTTCGTCAGCGGTAACCAGGCTGTGGGATCTCGGACTTTTTAATGACATTAATATTTATCTAAATAACGAATCAGAGTATGGAGTTGAAATAACTATTGAAGTAGTTGAGGCACCCATTTTAAATAATATTGTTTTTTCTGGAATTTCTATTCGAGAAGGAAGACTAAGAGATAAGATTGAAATATCAAAAGGACAAAGAGTAAGACCAAATGATATTGAAAATTCAATCAAAATAATTGAAGATTTATATAAAGAAGATGGATATTATAATGTGGAAGTTAATGCCTCGCTAGAAGAGCCAAAAGAAGTTATTGTCCAAACAAAATTCCCAAGAGATTTGGTGTTTAATGTTAAAGAAAACAATAAATATAAACTTAGCAATATTATTTTTGAAGGAAACGACAGCTTTTCTCAAAGAAAATTGAGAAAAGAGCTAACAAACACAAAGCAAAAAAAATGGTGGGCATTTTGGGTTAAGAACTATGACGTCAAAACCTTTGATGAAGATAAAGATGCTCTAATATCTTTTTATCAAAACGAAGGATTTAGGGATATAGAAATTATTAGCTCTAATCTTTCTGTAAATGAAAAAGATCAGACTCTTACATTGGTGATTAAAATTGACGAAGGAGAGGTTTACTATTATGAAAAATTTAACTTCATTAATAATAGTATAGCGGAAGAAGGAGAGCTAAAAAGGCTTTTAGGAATCAAAGAGGGAGACCGTTTTTCCTTAGAAAAATTTGAGAAGAATGTTTATGAGAATATGATGAGCATTTATCAAGATAGGGGGTATATTTTTAGCAATGTAACTCCTGAGATCGTGCCCGTTGGAAATAATTCTTTGGAAGTAAATTTTCTTTTTAATGAAGGAAGTCAGGTAACGGTTGAAAACATTTTTATTTCTGGGAATACTAGAACGCGTGAAAATGTTATACGTCGCGAGTTAAAACTTTTTCCGGGGGACACCTTTAGTCGTTCTAAGCTCATGAGAAGCCAAAGAGACGTTTGGATTCTGAATTATTTTGACAATGTAGTTCCAGACATAACCCCCATATCAGAGGATAAAGTAATTTTAGATTTTTTAGTTGAAGAAAAAAAGTCAACCCAGAGAATTAACGCAAACCTAGGATTTACAGCTGAGTATGGAGTAACTGGAGGCGCCGGAGTTGAATTTGATAATTTTATGGGTAGAGGCCAAAAATTGAATGTTGGAGTGAGTACGGGAACCAATTTTTCATTTTATTCAAACCAGGAACCATCAAAATACAAGTCTTTAAATATTAGCTTTCAAGATCCAATGATTAATGATAGTCCCTATCTAGTTGGGGCCTCTATTTTTTATTCTTACAGGGGTTCCTCGACCAATTATTATTTTCCTCTGGATTTTACTGTAGCGGGAGCTGCAGCAAGTTTTGGTAGAAGGCTCGAATGGCCCGATGATTTCTTTAGGGTAATGTGGTCTGCTCGAATCATGCAAAAAGAATATGAGGGATCTGAGGCGGACATCAATGCTTATATAGGAGGCCTGGAAAAAACCAGAGGAATCAGTTTAACTCAAATGTTTAGTAGAGATAGCAGAAATAGAGCAGAATTTCCTACCGCTGGATCGACATTCCAGCTTGAGACAACTTACTCTGGAGGAATTTTTGGAGGAAATGAAAATTTTCAAAAACACGTACTTGACCTAGATTGGTTTACCCCCGCATTTTCTAAAACTGTTCTTTATAGCTCTGTTCGACTTGGTTTAATCAAAACCTTAAAAGTGGATAGCAATACAACGAGCTTTGTTCCGTTTGATGAGAGATTTATAATGGGGGGAAATGGAATACCATATGGCAATGCTCTGAGGGGTTATCCTGACAATTCAATTGGCCCTCAAACTAACTCAGGACAGGCAGTGGGAGGAAACTCTATGGCCAGACTGATAACAGAGCTTAGATTTCCACTTTCTGAAAATCCCGTAATATATACTATGCTTTTTGCAGAAATGGGTAATGTTTGGAATCAGTCTACATTGTCTGAACCATTTTTTATGGAACGATCTGGTCCACTTTCTTTCAAAAAATCTGCTGGAGTTGGTGTTAGGTTTTTTATGCCTGGTATAGGTAAATTAGGCTTTGATATGGGATATGGATTTGACGATATCGATGGAGATGGGAACCCTCAGGGTTGGGAATATACTATAACTTTTGGACAAACTTATTAAAGGAGATTATAAGTAATGAGAAATATCATAATGGTTGGAGTTTTGTTTAGCGCGCTTCTTGCACAACAAAAAATTGGAGTAGTTTTTTCTGAAAAAATTCGACTAGACTTTGAAGAATTTAAAGAAGTAGAGCAGCAATTACAGCTTGACCTTGAAGTGATTCAAAGAGAGTATCAGGCTATGGCAGTTGAACTGGATAGTCTAGTAAAAGATTTTGAAAAACAAAGTCTAATGATGTCTGAAGAGCTAAAAAAGGCTAAAGAGCAAGACATTGTTGATTTAAACAATTCTATGCAAAGTTATCAGCTGGCTAAGGTTGGACCTAACGGCGAGCTTACTAGAAAACAAGCACAGCTTGAATATGAATTAGTAGAAAAATTTAAATCAGCAGTGAACACCGTTGCCACCTCAAAAGGATTTGATATAATTATTGATGGCTCACAAGCTTCGCTTTATACTAAACCTACCCACGACCTGACAGATGATGTTTTGTATGAGCTAAGAAAAGCAAACAGCGCCCAACAATAAATTTAATTTGAACTGTGTATTCTCTGCTTGAAATTAGCAATAAGATAAAGGGAAGTCTTATTGGAGACCCCCTCTTGCCTATATATGATGTAGAAGATATCTCTACTGCTGGAACTAATCATATCGCTTTTGCTTTTTTGCCAAAGTACATCAAGATTATGGAAAAATCCAAAGCAGGAGCCTATATTGTATCAGACCCTTCATTGCTTAGAAATAAAAATGGAATAGTGGTCTCGAATCCTCAAGCAGCAATGATTCAAGTTTTAAGTATGTTTGAGGCCGTTGATAGCCCTATAAACGCCCCGGAAAAATCATACCTTCATGAGAGTGTTAAGCTCGGTAAAAACATTACCATTTCTCCGTTTGTGAGTATTGGCAAAAACACTGTTATAGAAGACAATGTTGTATTGGGTCCAGGAGTTGTTATTGGGTCTAATTGTAAAATTGGAAAATCTTCTATTGTTCATGCAAACTCAGTTTTATATCATGACGTCATTCTTGGAGACAACGTAATAGTGCATGCAGGAACAATAATTGGTTCTGATGGATTTGGATTCCACACTGAAAAGAATAATCATTTTAAAATTCCACAGATTAAAGGAGTACGAATAGGCGACAACGTAGAGATTGGTTCAAAATGCACTATAGATCGAGGTTCGGTAAGACATACTTTAATTGACAAAAATACCAAGATTGATAATCAGGTTCATATTGCCCACAATGTACACATTATGGAGGGATGTTTAATTGCCGGTGGGGTTTTTATTGCCGGGAGTACAGTGGTAGAAAAATTCTGTGTTTTTGCTGGGAAATCTGATATCGGTCCGCATTTAAATGTAGGAGAAAAAACTATATTAGCTGCACGATCTTTGTTATTAAAATCTGTAGATGGTAACGAAATGTATGCCGGGAATCCTGCAAGACCGATTAAAGAAAAACAAAAAATGGATGCAGTTTTTAAGAGAATTGAAAAGTTAGAAAAAAAAATTTCCTAAAATGATAAAATTCCAAAAAACCATTCGACATTCTGTTTCTCTTACCGGGGTTGGCTTACACACAGGAGTACAAAGTACAATCACTTTTCATCCTGCAGAGGAGAATTTTGGAATTAAATTTGTAAGAACTGATAAATCAGATCAGATTGTTACGCCCTTTATAGATAACGTGGTTGATCTTACAAGAGGCACTACTATTGAAGAAAATGGAGTGCGGGTTCATACCACTGAACACGTTCTTTCTGCTTGTGCTGGAGTAGGAATAAGTAATTTATTAATTGAGCTTAACAGTAAAGAACCTCCTGTAATGGACGGTAGCGCAAAAGACTTTGTAAACGTATTAATTGATGGTCAAATCGTTGAACAGAAAGCAGAAAAAAAATTTTTAGAAATCACTCAGCCAGTCGTTTATACAGATGAAGAAAAAGATGTAGAAATCGTTGGTGTTCCTTTTAATGGTTTTAAAACAACGTTTACTATACATTATGATTTAGAGGGCTTGGGGGTTCAGTATAGCTCAATACAAAACACTTATACCAACTATGAAAAACAAATAGCGCCGGCGAGAACCTTTTGTTTGCTAAGTGAAGTGACCGCTTTAATGAAGCAGGGGTTAATTAGGGGTGGCAATCTGGGAAACGCAGTTATTATTGTTGATAGCGATATCAACAGCGAGGAGGTTAAGCTTTTTAAGGACCAATTCGGTATTAGGCTTTATGAAGGCACTAAAGGGCTATATAAGAGCCAGAGACTTAGATTTGCTAATGAGCCTGTTCGGCACAAGGTCCTTGATTTAGTTGGAGACCTAGCATTGCTTGGAATGCCAATTCGTGGCCACATTACAGCAATCAAGAGCGGTCATAAAGGCAATGTCGAATTTGCTAAAATGTTACGCGACACCTTTCGCAATCAATTTGAATAAAATCTTTTAATTCTTCTTACTCAAGAGCTAAATTTTTAACAAACAAATAGCTGAGAAAATAATCAACAATATTCATTCAACAACCATTATTGGGAAAAACGTTATCATTGGAAACAACGTGACTATTGGTCCATATAATGTTATCGAAGATAACGTTATCATTGGAAACAATGTATCAATTGGTAACTTTAATACAGTTTGCTCTTTTACAGAAATTGGAGAAAATTGTCAAATCTTTCATAACAATAGCCTTGGAGCCATACCTCAAGATAAAAAGTTTGAAGGGGAAAAATCAAAACTTCTAATAGGTAAAAATACAATTATTCGTGAATTTGTTACCGTTAATCGTGGTACTAAAGCAACCGGAGTGACGCTTGTAGGTGATGATGTTTTAATAATGGCCTACGTTCACATTGCTCATGATTGTATCATTGGTCATAATTCTATTTTAGTTAACCTTGTAACTTTAGGGGGGCACGTTGAAATTGGAGATTGGGCAATTATGGGTGGAGCTTCAAATGCACATCAGTTCTGTAGAATTGGTCAACATGCTATGGTTGCTGCAAATTCAAAAATAGTACAAGACATCCCTCCATATATTTTAGCTGGAAGACACCCCGTACAATTTTCCGGAATCAATGCTCTGGGCTTACAGAGAAGGGGTTTTAGTGATGAAGATAGATTGCAAATCAAGAGAGCTTATAAAATTTTATTTCAATCAGATCTAAATCAGTCGAACGCTATTGAAAAAATTAAACTAGAGTTCCCAAAAAACACTTTAGTAGATAACATTTTAGATTTTTTTGAGAATAGCAAAAGAGGAATTATTTAACTTTCCATTGAAAAAGATTGGAATATTTGGTGCTTCAGGTTCTATTGGAAAGCAGGCGCTATCAATAATTAAAGACCACTCAAATGAGTTGAAAGTTGAAGCTCTGTGTGTTAATTCATCTTCAGATTTTTTGTATGAAGCAGTAAAAGAATTTCACCCTAGGTACGTTGGTATAAATTTCATAAAAGATAATCATCCACTAATTCGATACTGCTCTTTAAACAACATCCAACTTTTCATAGGAAAAGATAGTGCAAGTAAAATTATTGAAATATCTAACCTAAACATTGCTTTGAACGCGATTGTTGGCTCAATAGGGCTCGACATTACCCTTGGCCTAATAGGTCGATGTGAAATCTTGGCTTTAGCAAACAAAGAATCTCTTGTCGTTGGAGGTGGCCTGGTTCAAGAATCTATGAACAACCATTCTACAAAGTTAATTCCCGTTGACAGCGAACACTCTGCTATTTATCAGTGCATGCTTGGTGAGAAAACAGACAATCTTCAAAAGGTTTATCTGACGGGAAGCGGAGGACCATTTCTTACCCGCAATTTAAAAACATTTAATTCAATTACCGTTGAAGAAGCAGTAAATCACCCTAATTGGAGCATGGGACAAAAAATATCTGTTGATTCAGCCACAATGATGAACAAGGCACTAGAGTGGATTGAAGCAATAAGAATTTTTCAAATAAAACCGGACCAAATAGAAATTATAATACACCCCGAATCTATTATTCATTCAATGGTGGAGTTTGTAGACGGATCTTATAAAGCTCAATTGGGCTCGCCTGATATGAGAGTGGCCATACAATATGCTCTGCTTGGAGGAGAAAGAAAAAACTCTAGTTTTCCTAGGTTGAGTTTTACTGAGCAGCTATCTTATAATTTTTTCCCCGTTGATTATAATAGATTTCCCATTTTATTTCTAGTTAAGCAATGGGAAAAGGAAGGAGGGAATCGAATACCAATCATGAGCATAGCAAACGATATTGTTGTGGGGCAGTTCCTAAAAAGAGAAATTCGATTTGTCGATATAATTCCTAAAATAGAGAAAACCGTAGAAAAATTTGCGAATAATTCTTCCCTTACAAAAGAAGAATTGGCTAAATTAACTTCTCAAATTCAACACTATCTTGGAGTTTAGATGATTTATTTATTGGCTTTTATTGTACTAATAGGCGTAATTGTTTTTGTTCATGAATTGGGACATTATGTTGCTGCCAGAAGCGTGGGGGTAACCGTTGAAAGGTTTTCATTGGGCATGCCACCAAAACTCATCGATATAATTAAAAAAAATAATTCAACAGAGATAGAAATTTATTTTTTTAAAATTATTAACAAGAAAATCAAGTGGGATAAAATAACCACCATTTCCTTTAAAAGAAAACAGGTGGCATCTGATACTATTTTTGGTGTTGGTCTGTTACCTCTTGGCGGCTTTGTAAAAATGAAAGGAATATTGGATGAAAACATGGATCAAGATTTTACTGGAGATCCTGATGAGCTAGAATCTAAAAATGCCTTTCAAAAAATTTGGGTGTTGAGCGCAGGAGTAATTATGAATATTATTCTTACCTTTGTCGTTTTTTCTTCAATTGGTCTAATCGATGGAGAAATGGTACCCGTCTCTTCAGACCCTATAATTTTTTCAGTTGAACCAGGAGGTCCAGCTGATTTAGTCGGAATAGAAAAGGGCGATAAAATATTGTCCTTAAATAATATTAGTATCGATACATGGAACGAAGCAACAGAGATAATCATGCAACACCCCAATGACACCATTTCAGTTAAAATATTACGAAATGGAGAGAGTATCCTTGCACAACCAACCCTCGCTGCGGCACCGAATTTAAGAAAAGGAAGAGTGGACCAGGAAATAGGAATTTTGGGGGTCGCTGAGGAGGTTCAAAATATGCCATTGGGAGTCTTAGGGTCAATAGGATATGGATTGAGTCAAACGAAATGGTCTGCTATTCTTATGTTGTCTTCTTTGAAGATGATTTTTACAGGAAATGTATCGAATGAAGATGTAGGAAGCGTTATAATGATTGGCGATATAGCGGGCCAAGCTGCTCAGGCAGGGCTAGTTCCTTTTTTGTACATTATGGCCCTTATAAGTATGAATTTAGCATTTATTAATTTATTACCTGTACCAGCTCTGGATGGCGGACATATTTTAATTATACTGCTTGAAAGTCTTAGAGGTAAAAAGTTTACACTAAAAACAAGAATGCGAATTCAATCAGTTGGGATGTTTATTTTGTTGGGACTGATGGCATATTTAATTTTAAATGACATCGTTCGATATTTTTTTTAACGCTCTACCCTTTTTATTTTCATAACTACCACGCCACTGTTAAGCGCCAGAGAAATTTTAATTGGCACCAATCGATTTTCATAATATCCATAGGATATTTCCATATCACCGTTTTTGAGCGGATTTTTTGGCTTAAAAGTAACAGCGTTAAATTTTCCTAAAGGAGTTCTGATAATGTCTACGCCCCCATTGATCAGAGATAATTTTCTAATTTTTGAACCATCAAGTATATCAAAATGAATCTCATTTTTTTTCTCTTGATTAACAAGACCTTTGTCTGGATCAGGGATTGAAATATCGTAAAAATTCTGTAAGATTAGAATTAATGAGTAGGGGTCAAAAATTTTATCAGGAACTAGAAATTCCTTAGAATTGCTAATGGCCTTATTTTCTAAAACTTCTGTAGTAAAATCCCTTTTAAAATTTTTTTCTCGGCTTTTTTTTATTTGCTTTAAAACAGTATAGTCTTCTTTTTTTATCCACGACTCAACAGAATTCCTAATTTTATAAATTTTGTCACCCAATGAGGACGTTCTAATAGAAAATTTCAGATGAAATGTTTCAAAACCACCCATCCTTTCTTCACCGATAACTGATAAATTTGATTCTCCAAGTTTTATAAGATCTTCAAAATAGACATTATAGTGATAACTGTCTCCTTTCTGAAGGGTCTGTCCTAACAATTGACTGGCAATAAATATAGCTGATAGCATTCGAAGTTTCATTTATCTAATTCTTTCAAATCCGTTGTTTTGATAAAAATAAATTTTTGATGCACCATTATTAATTTCTCCATCATCAATTAAAACATCGATTTCTTCGCCAAACTCTTTTTGTATTTTTAGGGGGCTTATTAGGGGTGCAGTTCCAGTCCTGTTGATGCTCGTTGTAGTTATGGGCCTACCAAACAATTGAATAATTGATTGTAATAGTTGGTGCTGAGGAACTCTAAAACCAATATTTCCATCTTTGGTAATTAAAGAACTAAACGCGCCAGGTTTTTCTTGAAGAATACAGGTACTTCCGTCTTTTAGAATTTCTGTAACTTGATTTAAATTATTAATAATCAGTTTATCTTGAATCATATCAATTCCACTGACAGCAATTGACATTGGCGCACTGCGCCCCTTAATTAAATTAATTCTTTCAATAGAACGATTATTTGATGCATCACACCCAATTCCATAAATTGTATCAGTAGGATATGCAATTATACTTCCTTTATTTAGCTCATCGCAAATAATTTGTTCAAGATTGAGCATGGAAGAAGGGAAGATTTTCATTTTAATTCCTCCACCTGTTATGAAACCAAAAATACTGGGAGGGAGCCTTTTTAATGGATGCTTCAATTGCAAGCGTATAATCCTGAATAATTGTAGAAATATCCTTACTATTATTTTCGTTTATTTTTTTAAAATAAACACAATATTCTTCATCATGTTTGATAATATCAAAGCATATTATGGGGGCACCCGTTCTTTTATGCAAAACTGCAGCACCACTGAAAGTTGAGCATTGATGCCCGAAGAAATTTACGTTAACTCCTTTTTTGCGCGCGTTTTGATCGCTTAACAAGACAACAATTTCATTATTTTTTAAAAGATTCAAAATTTCTTTCAAGTCGTTACCCCTATAAAGCTGTTTACTAAAGAAATTTTCACGGATTTTTTTAAAATATAGATCAGAGCCTTTATTATTTTGTTTATAGGCAACCCCACTAATATTGTAGCCTTGATTTTTAATGGAGGCAAAAGCTTTGTCAAAAGCCCCCAAATGCCCTCCCACCAAAAGAACGCCCTTTTTGTGCCCGAGAGCCTCTTCTAGTATTTTAATATTTTGAAATCGAACCCCAGAAGTGTTTTGCCAAAAAGTCCCCCTAATAAGCTCGACCATTTCTTGTGCGAAAAATTTATAACATTTTTTTGCAATTAAATATCGCTCTTTTTTGAGCAATCCTGGGAAAGCAATAGATAGGTTTTTATCAACCATATTTCTTCTAATTCTGAAAATATGGAAAAGTAGACTAAAGACTAAATAGTCATTAAATTTAACTATAAATTTTGGGCTAAATCTTAGAACCAACGAATAAAAATTTAAAAAAAAGTACATTATTAAATCTAATCTTTGTAAAAAGTAATGAAAACAAAATTTCAATCAATAGTCTTGTCTTGGGTTTTGGCCAGTACGCTTTTATTTTCATTTGATGAGCCAAAAAGCTTAATCTATATTGTTCCCATCAATGATGTAATTGATCTTGGGCTACCAAGCCTTGTTACAAGAGCGGTGTCAGAAGCTGAAGAAAAAAATTCAAGCTTGATAATTTTTGATATTGATACCTTTGGTGGAAGGGTAGACGCTGCCACACAAATTAAAGATGCAATTTCTTCTTCAAAAATTCCTACTATAGCTTTTATCAATCGAAGAGCTATTTCCGCAGGCTCATTAATTTCACTGTCTTGCAATAAAATCTATATGACGGAAGGGGCAACCATTGGCGCCACTAGCGTGGTCGATATGTCAGGAAACAAGCAGTCCGAAAAATCTCAAAGTTATATGAGAGAAGAGATGGCAGCCACAGCAGAAAGAGTAGGCAAAAATCCTAATATTGCTCGAGGGATGGTTGATGAGGAATTAAGCTTTGAATTTTTAGTAATCGATGGTGACACTTTGCAAGTTAACGATATTGAGGGGCGCAAAGAGGGCAAGCTTATTACTTTAACTACGGAGCTTGCACTTAAATATGGCATTGCGGATGGAGTATCTGAAACGATTGAAGAAATCTTATCTCTAGAATCAATTGAAAACTATGAAATGGTGACGATCAAAGAAAATTGGTCAGAAAATCTTGTGAGACTGCTAACAAATCCTACAATTTCTTCTTTATTGATGACATTTGGAACTATTGGGATTATTGCAGAGCTATATAGCGCAGGATGGGGGATAGGCGGAACTATAGGTGCGATTTGTTTAGCGCTAGCACTTGGAGCAGGATATATTTCTAAGCTTGCCACTTCGTCTGACCTGCTTATAGTTGCTTCAGGATTATTATTATTATTAATTGAGGCATTTTTTATTGCTGGCTTTGGCGTTATTGGTCTCTTAGGGGTTGCAGTTCTTTTCTATGGTTTTTATTTACTTTTAATCCCTGATATCCCCCTAGACTATGAGACGCAGCAACAGGCGATTGATGGTTTTGGGTGGGGAGTTTTTATTGGAATTATTGGACTAATATATTTGGTTCGAGTAATTTTAAGATCAGAATTTTTTAATAAATTGGTTTCGTTGGAAAGCAATAAGTCCAACTTAAAAGAAAATTATAATAATCGCATTAAGGTCGATTAGAAGATAAGGAGAATATATGGGTATTTACGCTGCTGTTTTACTGGTTTTAACAATATTATTAATTTTATGGATTGTTCCAGTAGGCCTTTGGCTTCAAGCAATTTTTAGCATTGGAGGAAAAGGTGTAACAATTTTTAGTTTAATTGGGATGAGATTTAGAAGAGTGCCTCCATCTGTCATTGTTAATGGTTTAATTGCTACTCGAAAAGCTGGCATTGATATTACAAGTAGCGATCTTGAGGTTCACTATATGGCTGGAGGTAATGTCGATAAAGTGGTTGATGCGTTGATTGCTGCTTCAAAAGCAGGGATAGAACTTTCATTCGAAATCGCAACAGCTATTGACCTGGCTGGAAGAGATGTTCTTGCTGCTGTGCAGACTAGTGTTTATCCAAAAGTTATTGATGCCCCCGTAGAGGGCAAACTATCTGCAGTTGCAAAAGATGGGATTGAGGTAAGAGCTAGAGCTCGTGTTACAGTTAGAACAGACATTCCAAACCTTGTAGGGGGTGCAACTGAAGACACAATTATTGCAAGAGTTGGAGAGGGGATTGTGAGTGCTATTGGGTCAAGAGAAACCTATGAGGCAGTTTTAGAAAACCCTGATTCTATTTCAAGAACTGTGCTAGAGAAAGGTCTTAATAAAGGTACCGCTTTTGAAATTTTGTCTATTGACATCGCAGACATTGATGTTGGTAAAAATATTGGAGCACAACTTCAAGCAGATCAGGCAGAAGCTGATTTACGAGTGGCACAAGCTAAGGCAGAAACTAGAAGGGCTATGGCTGTTGCTCTTGAGCAAGAAATGAAGGCTAAAGTGGTAGAGGCAGAGTCACAAGTACCTTTAGCAATGGCTGAAGCATTTAGAAACGGAAATTTAGGTGTATTAGATTATTACAAGCTGCAAAATATTTCCTCAGATACTTCAATGAGACAATCTATTGCGCAAGGTGGAGAAAACAAAAGGGAAGAAAATAAGGAATAGACTGTGGAGGAGTTAATATATTACGGGATATTAATTCTATTCTATTTATATAGCTCATATAGAAGCTCTCAAAAAAGAAAACAGTCTAGATTAGAATCTTTAAAATCAACAGAAGTGGGTTTTGAAAACAGGGAATCAAAACCCCAAGAACCTTTTTTTGATTTAGGAATCAATTTAGAAGAAAGATCGGATCCGTTGGCAATTTTCAAACAAGCCCTTGAAAAAGAAAAAGCAATACAAGAAAGTCGCAAAAAAGTAGAAATTATTCTTGATAGAGAAATTCAAAATGAGAAAAAAGAACCTACTTTTTATGAGAACCACCCACGTCTATCGAACATTAAAAGAAAGCCTAAAAAAACAAAAAGCAATAAACTTCTTGCAATTCAAAGACAATACCGAAATCAACCATTTAAGCTTGCAATAGTTATGAAAACAATCTTAGATGAACCTTTAGGTCTTCAAAACAAATGATTATTGTCATTATGGGTCCACCTGGAGCTGGTAAAGGAACTCAAGCAAAAATTCTGGCAAGCAAATTTAATTTATTACATCTTTCCACAGGTGAAATTTTAAGAAATGAAATCGATAAAGGTTCCAAGCTAGGTCTAAAAGCCAAAAAGTTTATGGATCAGGGAAATTTAGTTCCAGATAAGCTCGTACTTGAAATGATTGAAAAAATCATTTTAACCAACCAAGGTGAGGGTTTTATTTTTGATGGATTTCCGAGAACTGTTCCACAATCAGAGGGTCTTGACAGTCTTTTAGGGCGCCTTAAACTAAAAATTGACTATGTTTTAAATATCTCACTAGACAAAAGTGTCCTAGTAAAACGCTTGGTAGAAAGAGCAAAGAACTCAGGAAGATCAGATGACTCTGAAGAGGTAATTATGAATAGACAAGATGTTTATGAAGAGCTTACAAAACCCCTAATAGACTATTACCATGATGAAGTTAAAGAAATTAATGGAGACGGAACTGTTGAGGAGGTTTCTAAAAGAATTTTTTCTCAAATAAATCAATGAAAATTATAGGAGTTACGGGTGGAATTGGATCCGGGAAATCCACAGTTTGCAAAATAGTCTCGAAGCACTTCAATGTTAAGATTATTGATGCAGATGTTTTAGCTAAACAAAAATACGCCTCTTCTTCAATTCAAGAAAAAGTATTAAAGGCATTTCCGGAAATGCAATCCTTCGATGTTGCTCAACTATCAAAAATTGTATTCCAAAATCATAATACGATAAATCGACTTACCCAAATTCTATATCCAGAATTATTAATTGATTTTCAAGAAATCATTTCAGAGCAAGAGTTTCTAGGGAAAGTGAGCGCAATTCTGATAGATGCCGCTCTTCTTATTGAATCTAATTTTCATAACTATTTTCACAAAAACTATCAATTCAAACTAGTTTTAGTGGAGAGCAATGAAAAAGAAAGAATTGAAAGAGTCTTGAAAAAAAATCAGCTTTCTTTTCAGGAAATTAAACAAAGAATGAAGTTGCAATTAAGCGATAAAGAAAAAATTAAATTTGCAGACTATATTATTTCAAATAGTAGAAATCTAGACTTTTTAGAAGCTAAAACTTTGAAGGTTTTTCAAGACATTTTAAACAATTAGAGCATGGCCACATTACCAAACGAAATTATTCGCAAGCTTAGTAATGACAAAATTTTAAAAAAAATTATTCAAGAGTATGCATTTCCTATTTTAAAACCTTCACAAAACTATTTTGAGGATTTGATTAAATTTATTATTTACCAACAAATTTCTACTAAAGCAGGAAATACAATTTATAGGCGTTTTCAAGAATTTTATCAAGGAAAAGAATCAAAGGTTATAAATTGGACAGAAGAAGAATGGAGGTCAATCGGATTATCGATTCAAAAAAAAACATACATTGAAAATTTTTTTTCTCCTGAAAGTAAAGAACTAATTCGTTCTTTGTATCAAGAAAAAGAAATAGACAAACTTAGAAAATCTTTAACATCGCTTAAGGGCATTGGAGACTGGACAGCCGATATGTTTCTTATTTTCACTAAAAACTATGAAGATGTTTTTCCAATAAAAGATTTAGCAATTGTCAATACAATTAAAAAGCTTTATGAGGTTCAGACTGAAGAAGAGATATTGTTTTTGAGCAAACAATGGGCACCATATCGAACTTATGCATGCCTTTATCTTTGGGAGTCCCTTAATGATAATTTTCCTAAGTAAATTTAATGCAGCTCGTTGGTAAGGCAATGTATAGACCCTCCACTCAAAGCAAATTCAGAAACAGGACATTCTATTAAAGAAACGTCGTGAGATTTTAAAAAATTCAAAAGCCGCAAAGGATGATTTCTTGAGTTAGAAACTATTAATCCAGGAAGTGTTAAAGAGTTCAAATTGGTCCTAAATTCATTTTCCGAAGCACCATATTCTTTTTCAGATAAAATAAGTAATTCCCAGCTATTCTCTTTGCAAAGCTCTTTCAGGTAAATAGTATCTCTTGAGGAGAACATGTTTTCTGAACATTGAATGCCTATACAGTTATATTGATTGTCAAATATGGGAGACAATGAAGTATCTAGATGAAATCCAAAGTTAGGAATGATTTTTAATTCTCTAATGCCAAGAGATTCCGATAGTAATTCTAACCCCCCTTGAGAATTGCGGTTGTTTCCAGCAAGTAAAATATTTTCTTCAGGAAGATAAAATATATCGCCACCTTCAAATGTTTTATTTTTGTCATTTATTTCTAGCACATTATATCCCAATTCTTTTAGCGGATCTATAGTGAATTTCGGCTCTTCTTTTCTTTCGGGAACACTCATATTACAGATTACAGCATTTTTATTTCTGTGCGTTATAAAGTGGTCGCGCATAAAAACAAAATCAAATCCATTGCTATTTTCTAAATCTCCAGGAAAATTTATCTGAACGGTTTCATAAAACTCTTCCCGAATGACATTATGAAGATTATCATATTGCGAGACAAGTAACTTCTGATTAGGAATAGCCCCAGTTTTCATAAGTTCATTATCTTGGTAGGACGGGATTCCATCGCCCCACCAATTTTTTTTAGGTAAGCAGCTTATAGCAATTTTGAAGGTTTTTAACATCTTTAAAAACTTAAGATTTTATAATTAACATTAAAAAATTAAATTAAATCATGGAAAATTTAATTCTCAATGTGAATGACCTCAATCAATATCTTCCTGCTTTGAAATCAGTAGAAGAAATAAACTATACTGGGAAACATTTGCCTGGGGGGCTTTTTTGGGGAAAGGCAATTGATGGATTAAAAACGCTTCCAGATAGCAGCATCGATTTGATTATTTCAAAACCATTTTTTTATAACAATGAGGGTAAATTGCCAAGCGTCGATTTTGAAGAGCAAGAAATTTGGATCGAAGAATCAAAAAGAAGTATTAATGAATTAGGCGCTTTTGTTCTTATTACACCTATTGAGTTTTCATTTACATTTCAACAAATAATTGAAAAACACTTTACAGTTCAGGGCCGAATCAATTTTCCGATCGAATCGAATGAAAGAAATTTGCCTTGGAAAAAACCTTCTTTTGATTTATTAGTTTGCTACAAGGGAAATTCAAAGATAAATAATCATCCCGATATAAAAAGAGAAGGCAAGGAAAGCCTAAACAATACAATAAGCGATGTCATGAATCTTGTTACCCACAAGAGAAACTTAGTGGTGGATCCTTTTTTGAACCAAGGAGATATTGCCAAAATTGCGCATGGCTTAGAAAGAAAGTTTATTGGATTTGAAGAGGATAAAAATAAACTATTGATGATTATGAAAAAATTAAATGAAGGAGATAAAATTAATGATTAAACAATTAGAATCTGACGTGAAAGAAGCGCTAAAGTCAGGCGACCGAACTAGGGCGAATTTTATTCGACTGTTAATTGCAAAGTGTAAAAATAAGTCTATTGAGCTTGGGCGGGCATTAGAGGATTCTGAGATAATTAAAGTATTGCAAAACTCTGCCAAGCAGTTACAGGATTCATTAAAACTTTATCAAGACGGAGCAAGACAAGATCTGGTAGATCAGGCTAAGGTTGAGTTGAGTTGCATTGAATCTTATCTCCCAAAGATGCTTTCTGAAGAAGAAACAAAACAAATTATCTCAAGTATCATTGAGGAAACAGGTGCAACCGGCCTAAAGGATCTTGGTAAAGTAATGCCTGTTTTGATGAAAAAAGGGCAGGGAAAAATTGATGGGAAAATGGCTCAAGAAATTTTAAAGTCTATGCTGTCCTAATGATTTTAGATCTATTGTTAAGTATCTTTGTTTTAATTTTTGGAGCCATAGGGTACCAAAAAGGGCTTCTCGAGTCAGCTTCGGATTTTATTAATCTGTTTTTCAGTTTAATTATGGTTCTTTTATTTTATAATGATTTTGCAGTGTTTTTATCGATGGAATTTCGTTTGACTGGTGGGGCAGTGATCATAATTGCAATGTCGATTATTTTTATTGCATCTTTATTTTTTTTAAGATTTTTCACTAGTGTAATTATTTTTTTAACTGAAGGATCTAATCAAATACAATATATTGATAAATTATTTGGATTATTTTTTGGAGTTTTTCGTGGAATCGTTTTAGTTGTTATCAGTGCTTGGTTTTTTGATACGTTAATTTCCTCAAAATTATATTCTATTCTCAAATCAGAATCTCAACTTCTTGTTTATCTTGAGCCTTACATCAACTATATTCGCAACAACGTTAATATATTTTCCTAAAATGAAGAGAGTGTCTCAAGAAACAATCGAAAAAGTTTTAAATGATGTCAACATTTTGGATGTTATTTCTCCTTATGTTTCCTTAAAAGCCAGAGGAAGAAATTATTTTGGTTTGAGTCCATTTCGAACAGAAACCAAACCATCTTTTAGCGTTTCTCCCGATAAAAACATGTGGTATGATTTTGGATCAGGGCAGGGTGGTAATGCAATTCAGTTTATTATTGAATTCGAAAAAATCAGTTTTGGAGAAGCTGTTAAATTAATTTGTGAAAAACATGGAATAGAATTTATTGAGACTGGTGAAAGCGAAGATAATAATGTTTATGATTCTTTGTATGAAATTCACGAACTGGCTTGTTTATTTTTTCAGTCCGCGCTGCATAAGAAGGAAGTAGCAGCTTATCTTAAAAACCGATCTATTGCCGAAAGTATCATTAAAAAATTTAGAATTGGTTATGCTTCTGATTCATGGGACGATATGCTTACTGAATTTAAAGGCAAATTTAATGAGTCAATCCTAGTTGAATCAGGGTTATTCTCCAAAGGGAAAAGGGGACTAGTGAATCGCTTTAGAAATAGAATTATGTTTCCCTTTTTTAATCTTTCTGGAAAAGTAATTGGATTTAGTGGGAGATCAATTTCTGAAAAAGAAGATGTAAAGTACCTTAATTCGCCGGAGACCAGACTATTTCAAAAGAGTAAAGTGTTTTTTGGTTCGTATTTTACCTTCCCAAATATCCGAAAGAATCAATTTGCTGTTTTAGTGGAAGGGCAAACCGATTTTTTAAGACTATTTTCTGAAGGATACCACAATGTTTTAGCTACTTCCGGAACCGCATTTTCCGTGAAACACGCAGCAGCCTTAAAAAAATTTACTAACCGTGTTTTATTGGCATATGATTCAGATTCAGCTGGAATCAATGCAGCCATAAGAACGTCTTATGTCTTATTACAATCGGGTCTAGAGGTGAGAATTATAGATATGAAAGAAGGGCTAGACCCAGATGAATTTTTTATCAAAGAGAAAACACCCAATGAGGCCTTTAAAGCATTAATCAAAAATGCTCTTCATCCCGTTGATTATTTGGTGCTCAAGAAAAAAGCGCTTGAAGGGGGAGCCGCTGATCAATCACGATTCTTAGATGAACAGCTATTAGAAGTAATACAAATTAAAGATCCAATTATCGTTAATGATTTGATCAAACGTTTTGCCACAAAGTTTCAGATAGATGAAGGAGAAATTGTCAGAAGAATTGAAAAAATTAAACCTAATCAATTTACTGAAAGAAGTATGCCAGGACAAGCTAGCCAAGACAGTTATAATATTATGCTCTCCGATACTCTCTTAGAAAGAGCAGAAATTGAACTTTTGAAAATTTTAATTCATAATTCATCTATGAAAGATAAAATTTCTATCTCTGATTTTTCTAATCAATATATAAAGGAAATTGCCAAAAAGATTCTAGAAGATAACCAACCAATTTCTATTTCAAGCTTATTAGATTCTTTTGGAAGCTCTCCAAAACTACGAAATTTTTTAGCCTCTTTAATTATTGATTATTCTGAAAAGGACGACCTAAATCTTATTGTGGAGGATTGTTTACGAGTTATTCGTGCTGAGCCTACAAGGCGAAAAATTCAATCATTACGCTCTCAAATACAACAATTGGAAGATAGCGGTCAACAACCTTCTACTGATCTTCTAAAAGAATTAGCCGAATTACAGAAAAACCTTAAGAAATAAAAAGCCCTTCCGTAGAAGGGCCTTTTATTATCGATTCAATCTATTAAAGATTAATAATTGATAGTAACACCAAAGTTCCAAGATCTAGGTTGACCTAGACGAACTCTTAAATTACCAACGTCACCTGAACCAAAGTCCACAATATCACCTAAGTACATTTCATCAGTTAAATTGTGAATTGAGTAGTTTAAGGTTACGTCTCTACCCATAACATTCATACCATATTGGTATTTGAAGTTTAATAGGGTTGTAAAGTCAGTAACGTAAGCATCATTTTTAAAGGTGTTGCTTGGATTACCCAATGTAGAAGCTAAGTCAGATACGTCATTGTCATATCCCCATCTAGCATAAAGTTTTCCAAAGCGCTCAACTTCTAATGAAGCTTTCATTGTGTTCCAGAAAGTAGTCAAAATCAAGTTTTGAGCTTCTTGAGGAGCACCTGCAATTTTTACATCTTTTACATAAAGATCAAAGTTGGTTGCTGATGATGGATCACCAATGGTCTCATAATAAGTGTAATTAAGATCATCAGTAAATACCCAGTCACTCATGTGACCACGGAAGTCAATTCTAAGAATTGGAAGTGGTTGATAAGCAATAGAGTACTCAACACCTGAGTGATTTTGATTTAATCCATCAATGCTGAAGAAAGTTTCTTCACCATTAGCTTCAGTTCTGGTTCCGCTTAATGCACGGTCAGACCATGTGGCGCTATAGTAGTTCATAGAACCAGCCCATTGTCCATTAGCAGATTTAAATCTTGCACCAAGATCAAACCAAGTTGCTTTCTCATTTTCGAAGTCTGAGTTAAGAACATAGTTTACATCATCAACAAGTTTATCTAATGATGGTGTAAGATTTGAAGAACTGAAATTACCAAATAATAAGAAAGTATCATTTAGAGGATAAGTACCTCCAACTTTCATTTGGTAACCTGTTTCAGCGTCAGCTTCAACAAATTGTCTTTCAACTGAGAAATGGTTTTCAGCTGTGTAGCTTGCAGTAGTTGCACCAAACATAGCGAACCATGAAGATCCGTCGTTGTTTGAAACAGTGTACTGACCATAACCACCTAACCAGTCAATCGTGTTGGTGTTATCATAATAAATTTTATCACCAAGGGTTCTGTATCTTTGCTCAGCAGTCCAGTTAGGATTACTTGAGTTATAGAATACATCTCCACCTAATAAATCATATACTTGTCTGTAGTGCTCAACTTCAGCTGTTCTCCAGTCTAAACCAAAGGTCATCTTTGCATTTGAGCTGATATCATAGTCTAGTTTTGACATAATACCATAAGTATATTGATTGTTTCTACTTCCACGAATAATACCTCTAGAAACATATCCATAATCATCATTGTATCTATTGTCTGCAATGTTTTGAGCAATAGTAGCATCCCAGTCCACTGCTCCATCGTTACCATAACGAACAGAACCAGCTGAACCTGAACCACCACCTTCACCACCAGAGTAGTAGAAAGAAGTCGATAGCATCATATCATCACTTAATTTATTATATGAATTAAGTTGTACGATTGGTTTGTGGAAATAGTTTTCTCTACCGTTGATTTCATGAGCAGAGTGACGATCAGCTGATTTCCAGTTCCAACCATCAAATGGTTTCCAACTAGCAACAGCTCTTTTACCGTAATATGGTGTGTCTAATCTGTCATATCTAGGGTTGAATTCAATACCTCTTTCAGTTCTTGAGGCAATATCTTCTTCTGAAACACCAAGCTCTCTAGCTAATTCATGGCTAAAGTCTGCAATACGATTATTGTAGAAATTTTGTCCGTGAATTTGTGGAGAACCTAATGCAACAAACTCTAAACGATTGTTATCATTCATAGAGTAAGAAGCGTTAAAGTAGTATGACCAAGCATCAGAGTAAGTACCGTTTTGGAAGAATTTATCCGCGGTTCTTCTTGAAGCAGCTATTTGGAAATTCATTTTATCGTCCATCATTAGACCTGAATTCAAGACAACAGCTGTTTTATTGTATTGGAACATACCTACTTCATGTTTAACAGTAGCGCTAGCTTCAGTTGAAGCAGGAGCACTGATGAAGTTTACAGTACCACCTAAACTAGGAACTGCAAGATTTACAGCACCGGCACCTCTTTGTAGTTGTACTACAGAGGCTACGTCTGCTAACACAGTCCAGTTAGAGAAGTAAAGATTACCGTTTTCCATATCGTTCATCGGTACACCGTTAATTAAGTACGCAGTATAACGGTCATCGAATCCACGAACGTAAACGTTTTCATCATCCCATCCACCACCGTTTTCAACGTAAACGTTAGGAAGGGTTGATAGGGCTTTAGGCAAACCACGACCACCTAATCTGAAATCGATATCAGCTTTAGTATAGTCATCGTAAGCAATTGCAGCGGTGTTATCAACACGATTTGCTAATACATCCACACCACCAAGCGCTACGCTTGATGATTCAAGTGAGAAATTAGCAGAAGCGGATGAATTGGATACAGAAACACTAGCTGAAGATGATTTATAACCTACAACTGAAGCGGTCACTGTATACGCACCGTTTGGTACCTCAATAGAATAACTACCGCTTAAAGTTGCAGCAGCACCTAATGAAGTTCCTTCAATCACAACATTGGCTCCTGGAAGGGCATTACCCTCGGCATCTGTAACGGTACCGGAGATAGTTCCTTGCGCAAAAACCGCACTAGTAAACATCGCGATTGTAACTAATGCACTAAGAATTGTACGATTCATAGTATTGTTCCCTCATTTTTGTTATAATTTGGACTTTTAAAGTCACGCAAATTTGGGTTTTTTTTATCGATTTTGCAACTTGAAAAAGCGTTAGAAAAAAAAATTGAAAAGGGGCGG
>sequence11
ATAGAGGATTTATTGTTTTTCCAAGCTGGCTTTTATGGAATCAACAAAACGTCTGCAACAAAAAATATTAGAAATCTTCTCGCTCAAATGGGACTAGAGCAACACAAAAGAAAAAAAATGCGATCTCTTTCAGGGGGAATGAAGCGCAGATTTCAAATTGCCAAAGCGCTTGTTCACGACCCCGAAATATTAATCTTGGACGAACCAACAGCGGGTGTTGACGTTGAATTGAGACATGAACTTTGGGATTTTCTAAGGTCTTTACATCAAAAAGGAAAAACAGTTTTGCTTACAACACATTACATTGATGAAGCTGAACTTTTATGTTCGAAAGTGGGAATAATAAATGACGGAAAACTTATAACCGAAGGAACGGTTTCAGAATTAAAAAATACCATAAAAAAATCTTCCATTGTTATAAAAATTAGAGAAGGTCAAAACCCGTCTTTTGATCAAATTCTTAAAGAATATAAGTGGGCTTACGGCAACCAGGAATTAATTATTTCATCTGAAAGCCCCAATTCAGATTTACCAATATTAATCAATACAATTTCTTCTAGTAATATTAAAATTGACGATATCCAGCTTCCGAAAACATCTCTTGAAGACGTTTTTTTAAAATTAACAGGAAAAAAAATAGATGATTAAGAACTGGGTAGGATTTTCAACTTTATCAGGAAGAGAAATCAAAAGATTCTTTTCTGTGTGGAGGCAAACGGTCGTTCCCGGTGTTGTCACCACCCTGTTGTATATATTTATTTTTGGTGTAGCCCTGGAAAACAGAATATCAACAATCTCAGATATACCATATAAAATATATATTCTTCCAGGTCTTATAATGATGAATGTTATTACTAATTCAGTTGCCAACTCTGCTTCGTCTTTACTTCAAATGAAGTTATTGCAAACTCTACCAGAACTAATGATTACCCCTCTTTCTAGCACAGAAATGTCTCTTTCTTTTATACTTGGTGGTACAGTTAGAGGAACAGTCAATGGAGTGCTGATATTATTAATATGTGTCTTAAGCGGAATGCCCCTAGTCAACCCGTTATTAACAGTTGGAATAATTGTAATAGTTTCTTGGATTTTTTCTGCACTCGGATTAATAATTGGTCAGGTAGCTGACTCTTGGGATCAGCTGGCAGTAATTCAAAATTTTATTATTACCCCCTTAAGTTTTTTAGGAGGGATTTTTTATTCAATTTACATGCTTCCTGATTGGGCCATTAGAATTAGCTTATTAAACCCGATATATTACTCTATTAATTCTCTTAGAGCCGCAACAATAGGAGTTGAGGAGTTTAGTCTTTTTGGCTCTATTATGATTATTATTGGTTGTAATATTCTTTTAAGTTCCGTAGCAATTATGCTAATGAATACTGGATACAGGATTCGTTCTTAGTTATTTATAAGAATTTATATCAGGACAAACACAGAAAAAATTTCGATCCCCATAGGCATTGTCTACTCTAGATACATAAGGCCAAAATTTGTTTTCTTTTATCCATTCAAGAGGGAATACAGCTTGGTTTTTTGTGTAAGAGTGGCTCCAGTTGTCGCATATATCTTGAATTGTATGTGGGGCATTAATAAGAGGGTTGTCCTCTTTTGATAGCTCGCCAATTTCTATACTATTAATTTCTTTTCTAATCGATATCATCGAATCACAAAACCTGTCTAATTCGCTCTTCGACTCACTTTCGGTTGGCTCTATCATCAAAGTTCCAGGGATTGGCCAAGACATGGTTGGAGCGTGAAAACCATAATCAATTAATCTTTTAGCAATATCCTCATTTGTTATGTTTGTATTGGTTTTAAAAGATCGACAATCAACAATAAACTCATGAGCATTTAGCCCATTTTTACCCCTGTAAAGGATAGTAAAATCTTTTTCTAGTCTTTTGGCCATATAGTTAGCATTAAGAATTGCTACTTGTGACGCTTTTAATAGGCCCCCAGAAGACATGAGCTTCATATAAATATAGGAAATTAACAATATGCTGGCGCTTCCATATGGCGCAGAAGAAACGCTGTATGTAAAATTATCATTTATAAATGAGTGTTTTGGCAGAAAGGGTTTAAGTTTATTATTTACACAAATAGGACCCATTCCAGGTCCTCCGCCACCATGAGGAATACAGAAAGTTTTATGGAGATTTATGTGCATTACATCCGCCCCAAATTTTCCAGGCTTACACACTCCAACCATTGCATTCAAATTTGCACCATCCATATATACTAGTCCGCCATAAGAATGAACTAAATCACAAATGTCTTTTATTTTTTCCTCAAAAACACCGTGCGTAGAAGGATAGGTTATCATTAAACAAGACAGCCTGTCCCCAGCAGCTTCAGTTTTAATTTTCAAGTCTTCAAAATCTATATTTCCCTCATTGTCACACTTAACGATTACTACATCAAGTCCGGCCATGATAGCGCTCGCAGGATTGGTCCCATGAGCAGATTCTGGGATTAGACAAATGGATCTTTCAGATTGAAGAGACTTATGATATTCCCTGATGCATAAAAGGCCGGCATATTCTCCCTGGGCTCCAGAGTTTGGTTGAAAGGAAACTGCATTAAATCCAGTAACCTTATAAAGCATTTCCTCAAGAGTTTTTATAATTTGTAAATATCCAGAGGCTTGTTGGGGAGGAGCAAAAGGATGAATAGAGCTAAATTCAGGCCAACTGATTGGAATCATTTCAACGGTGGCATTTAGCTTCATTGTACAGGAGCCAAGCGGAATCATACTATGGTTTAGAGAAAGATCCCTTTTTTCAAGCTTGGTGATGTATCGAAGCATTTCTGTTTCCGAATTGATGCTGCTAAAAATTGAATGAGAAAGAGTTGCTGTTGACCTGTTTAGCTTTGGAGCTTTTAATTCAAAATCAGAAAGGTATTCACAACCAAATATTTCTAAGATCATTTCAATTTCTTTTTCATCGGTTTTTTCATCAAGAGAAACACTGATAATACCATTATCGTGATACATAAAATTATACTTTTTAATCTCAGCTCTTCTTTTGATTTCTTCAGCGGTGACCCTGTTTGCTTTGATTGCAATTGTGTCAAAAAATAATAAATCCTCTAAAATGATTGTGTGGCCCAATCTTCCTAAGCCCTTTGCAAGTTGAATGGTAAAATTATGAATTTGATTTGCAATTGAAATAAGCCCTTTAGGCTGATGGTGTAGGGCATACATCCCAGAAATAATTGCCAAAAGAACTTGTGCAGTACATATGTTTGAGGTTGCTTTTTCTCTTCTAATATGCTGTTCTCTGGTTTGTAGGGTAAGTCGATAAGCCTGATTTTTTCTTCTGTCTTGAGAAACTCCAACAATTCTTCCAGGTATATCTCTTTTAAATTCTTCAGACGTAGACATAAAAGCTGCGTGTGGACCCCCAAATCCGAGAGGAACGCCGAACCTTTGACTATTTCCAATCGATATATCTGCACCCAAAGCCCCCGGAGATTCAAAAAGCTGAAGACACATTAAGTCAGCTGCAAAAACAACCTTACATGATTCTTGATGTGCTTTTTTGACAAAAGATTTATAAACACTTTCTTTTTCAATTCCACCATATCGATTGGGATATTGGACTAAACACCCAAACGCTCCCGAAAAATCGAACTCTTTGAAGGGACAGACAATTGTTTCAATTCCGAGAGGTTCTGCGCGAGACACGATTACATCTATGGTTTGTTGGAAACATTTTTCATCAATCAGAAACTGATTTTTTGAGGAGCTATTTTTTCTATAAAGCATTAACATCGCTTCACTTGCTGCCGTTCCTTCATCTAGCAAAGAAGCATTAGCTATTGGTAGTCCTGTGATTTCTGATATCATGGTTTGATAGTTTAATAGGGCTTCTAGCCTACCTTGTGATATTTCTGGTTGATATGGTGTATATTGAGTATACCAACCTGGATTTTCCAGGATATTTCTCAAAATTACATTGGGTAAGATGGTATCATAATATCCTTGGCCAATCAAAGAACGAAAAATTGAGTTTTTGGAACCAAGAGTTTTTACATGCTTAAGGATCTCATTTTCTGAAAAACTTTCATTGCCAAAAGTGTTTCCATCAATATCAATTATATTTTCAGGTACTAGTTTTTCTAAAAGATCGTCCAAGGATTGATAGCCAAGAAATTGAAGCATTTCTCTGATTTCATTTTCAGATGGACCTATATGTTGTTTGATAAAAGATGACACTGGATAGTTTCCTCTTGTTAAGTACCCCCGGAAGGATTCGAACCTACAACCAAGGGCTTAAAAGGCCCCTGCTCTACCATTGAGCTACGGAGGCAAATGCCTGGTAATTTAATCTCTAACAAGGTTATTGAAAAGAGATTATCTTTTTATTAATTCAGGAATTAGTTGGAGAAAACCATATATTAATATATTTTCATGGGATTTAGATAGTTATTATAAAATTGGGGGCGACCGGTTTCGACATTTTAGAAAGAAATTTCAAATGGCATGTAGAGCTTAGTAACTCTTTAAACTTCTTTCACATATTAAGTGCCAATCATGGCCAAATGGCTTTTGCTTAAATAGTTTAAAAGCCCATCCTTTAAATGTGTTCTCATTGTATTTAAAAGGGTGTCATAAAAATGAGATAGCTTAATGAAGTTCTTCGGTTTGTTGAGTGAAAAAAAGAAGATAGCTTTAACCAAGCTTGTTCTTGAGCTTTTTTAAAGTGAAAACTTAATCAAGTAACTAAACATGTAGAGGTTTGTTTTTTCTCTTTTATGGACGGGAGTTCGAATCTCCCCGCCTCCACGATACCTACATTCTTTCTGGGCAGGAAATACCTAAAATAGATAATCCAATTTTTAAAACTATTTGAGTTGCCTTACAAAGATCTTTTCTTTCTGATGAGGTATTTATATCAGCAGAGTTAATTACTTTATGATTTCCATAAAATTTGTGATATGCCCCAGCTACCTCTTCAAGATATGTTGCAAGCCTTTTGGGCTCTAAAGAAGAAACGATGTCATTCATTCTATCTGGAAAATCTGATAAAATTTTCAAAAGATTTAATTCGTCTTCATTTTTTAGGTTTTCGTAGTTGACGGTAGTTTTGTTTGTACCCAGCTCTTTATTATATCTTGTTAGAAGATTTGAAATTCGTGCATATGCATATTGAAGATAGTATGCTGGATTTTTTTCTGACTCATCTTTTGCTAAATCTAAATCAAAATCTAAGTGAGAATTAGCCCCACGCATTATAAAAAAATATCGAATAATGTCCGGACTTAAATCGTCAACCAACTCATCAAGAGTAACAAAGTTTGCTTTTCGAGTAGACATTTTTACTATTTCTCCTGCTTTTTTAAGCGTAACAAACTGATGAATTATCACTTTTATATGTTCGGTTTTTTTGTTTAAACATTGGAGGCCAAGCAATACATCTGGATATGTATCAATGTGATCCGCCCCAAAAACATCTACTATTAAATCGAAACCACGGTCTACTTTATCAGCGTGATAAGCTATGTCTGGCAAGCGATAAGTAGGTTCCCCGGTACTTTTTACTAACACTTTATCTTCGTCTTTTCCATAATCAGATGTTTTAAACCAGACAGCCCCATCTTTAACATATGACAGGTTGTTATCTTTAAAAAAATTCAAAATATTATCAATGGAACCGTTACGATAGAATTGACCCTCTTTTGTGAAAACATCAAATTTGATACCAATGCGATTGAGCGTGTTTTGAATATCTGTAAAAATTTCTTTTTCTGTAAAATCACGAAATATTTTATCGTCCGATTTTAAGCCAGAACCCTTAAGATCAAGAATTTTCTGAGCAATTTCCTCTATATACAACCCAACATATCCGTTTTCAGGGAAGGGAACCTTGACTCCACAAAGAGCGGCATATTTAGCGTAACAAGATTCTGCCAAAACACGCATTTGTTTTCCAGCATCATTATAGTAGTACTCTCTTGTAACAGTATACCCGTCCCACGTTAAAATATTTGCAATGATATCCCCTAATATTGCCTGTCTTCCATGGCCCACGGTCAATGGTCCAGTTGGATTTGAGCTAACAAATTCAACATTGGCTTTTTTGCGTTGAGTTCTTTTTTTGCCAAAATTTTCATCTTCTTGAAGAATTTTTTTTAAAACGGTATAGTAATATTTATTCGAGATATGAAAATTTATGAATCCAGGAGCCGAAGCGCTTAACGTAAAAATTTCAGAAACAGCTTCATTTTCTTTTACAATATTTTGAGCAATTTCAATAGGCGATTTTTTAAGACGTTTTGCCAGTTTAAGCGCTAGGTTTGAAGAAAATTCACCAAATTCTTTGTTGGAATTTGAGCTTATAGACCAGTCTTCAAAATCAATTTTTTTTTCAATTAAATAATTTCTAATAAATGTATTAATGTGGTTTTGTATCATTTTATTTTACCGCCTTGGCATCAAACCAAATTCTTTCAAGATCGTAGTAAGAGCGTGTTTCATCTAAAAATAAATGGACCACAACATCAATATAATCTAGTATAATCCAATTGGCATTTTCATACCCCTCTTTCCTAAAGGGGGCTTCTTTAATTTTTTCACTAATATTATCTGCTATCGCTTTTAGTTGAATAGGGTTAGAGGCTGAGCAAATAATAAAATAATCAGCAATCGATGTAATATTAGAAACATCTAACATTTTTATATTTTCAGCTTTTTTTTCTTGGGCTAAAGAACATATTTCTTTTAGTAGTAATTTTGGTTTTGACATTAATAGAAATTAAGAAAATCTTGGTAGTCTTTACCAACGATTATAATAATTGTTTCATCTTTGAGTGGGAATGTAGAGGGGTAGATATGTTCACTATCTACTCTTTCAGAAATAAGAGTAATAAAATTTTGTATATCTGGATCTGAAGCAGAGCTATATATTACCTGAGTTTTTTGATAGTCAAAATTATCAGCATTTTCGGTTTTAATCACTTTGGCACCGTATTTCTTTTGGATTTCACTGGATATAAGATTTGCTACTCCCGGAACACCGCACCCATTTAAAACCGAAACGACTATCTCTTGAGGTTGATACGCTTTCTCCCTTTTTGGTAAAGAAATTTTTTCAGTTTTTTGCTCAGAGCCGTTAAAAAAATTATGGCTAACTAAAGAAAAAACTAAAATAGCATTTAAAAAAACCAGTAAAACGATTAATAAATTAAGTTTTTTAAGCATTTATATCTTTCATTTCTTCAAGCTGATTGAGAGTATTAATTCCGAGAATTTCTTTATAATTATCAGCTTTTAGAACACCAATCTTTAAAATTTTATTACATATTTTAACAATGTCTGTTAGATAGTATTCGCTTGCGCTGTTGTTGTTTTCGAGACTGCTTAAGTGATTAAATATCTCTGGAGACTCAAGCAAACATATCCCACTATTTATTTCGTTAATTTTTAATTCTTCTCGTGAACAATCTTTGTGCTCAACAATTTGCGATAAGCCACTTGCGCCTTTTCTTATAATTCTACCATATCCTGTTGAGTCTACAGCGTCTGCGCTTAAAAAAGTTATATCGTTTTGTTCTTTTAGGTGGTGCTCATAAAGGTTTTTAAGAGTTTTTAGGGTAATTTTTGGGACGTCTCCATAAAGAACTAAAATAGAAGAGTTATTATTTAACAATAAATCCTTGCAACATTGAAGAGCGTGACCAGTTCCGAGCTGCGGCTCTTGTATTGCGTATTTAATCCCCCTATTTCTTGTGTGTTCAATTACTTGTTCTTTTTTAAAGCCAACCACTAAAATAATTTGTTGGGGTGACAATAATTTTGCGGTATCAATAACATAATCAATCAGAGGTTTTTCGTTAAGTAAATTAAGAACTTTCGGAATGTCGGTCTTCATACGCGAGCCTTTTCCTGCACCAAGTATTACAATATCAAGAGATTTTTTCATCTAAGGCTCAAATTTAATGATGGAACCGATCTTTTATCAATAATACCTCCACCTAAGCAAAAACCCTCATCATTATAGAAAACAATAGATTGTCCAGGCGTTATTGCTCTACAAGGCTTTTCAAATTTTACAATTAATAAATTTTTTCTTGATAAAAGCTTGCAAGGTATAGATTTTTCTCGATACCTGACTTTAGCGTAAAGAATAGACCCACTTTTAGGCTCAGTGTTGATCCAATTTAATGATTTGACCGAAGCCTCGTCACTCAGAAGAAACTTGTTATCTTTTCCTTGTGCGACAATAATTTCATTATCATTAATATTTTTATGAACAACATACCATGGCTTATCAGCGCCACCTTTTCTCGCCCCTATTTTTAAACCTTTTCTTTGCCCAATTGTAAAAAAAATATGCCCATTATGAGACCCAATTATTTCTCCATCAGTTGTAACGATATTTCCCTTAGTTGAATGAATAAACTGACCAACAAAATCATTATACTTTCTTTCCCCAATAAAACATATTCCCGTACTGTCTTTTTTTCTGCTATTAATAAGCCCATTTTGTTCTGCAATTTTTCTAACTTCTTTTTTGTTATATTTATCGAGTGGAAAAATAACTTTTTTGAGGTCAGATTGAGATATTTGATAAAGAAAATATGTTTGATCTTTCTGCCTGTCTTTTGGAATAGCAAGCTGATAAACACCATCACTATTTTTAATTTTTTGAGCATAGTGACCCGTAGCAATAAATTGTGCACCGACTTTATCTGCATGTTGCTTTAGCACATCAAATTTAATTTCACGATTACATAAAACATCAGGGTTTGGAGTGAAGCCTCTTTTATGGTCCTCTAGAAATTGAGTAAATACACGATTTTTATACTTTTGAATGTAGTCTATTTTCTTAAGTGATATATTTAATTGTTTCGCAACCGATAATGCATCAACAAAATCATCTTCTGCTGAGCAAATAGCATCACTATCATCCCAATTTTGCATAAAAACACCATGAACTTCATAATTTTTTTTTTGTAGCAATATAGCAGCTGCTGAGCTATCTACTCCTCCACTCATTCCCAAGACAACTTTTATTTTTTTCATTTTTATCTTTTGAATCTTAATCATATTTTTATACACATCAAACTGATGTAATTTTTTATGAAAGCAAACCGAAGCAAAAATCTTATTTCTGGATCAATTAGTATTGATCAAATAATTAATATTTATGGTACCTATAACGATGTTCTTGGGGGCTCTGCGCCCTATGCGCTTTATGCAACTAAGCAAAAATCGTCTAGTATTGTTGGAGTAATAGGAACTGATTTTGCTGACCACCACTTCCAAGACCTTAAAAATCAATCTCAAAATATGGACAATGTTTCGGTTTTTGAGGGAACAACCTTTTGCTGGGGAGGAAAGTACGCAAGCGATTTTTCTTACAGGGTAACTAATTATGTAAGGCCTGGAATTAGTGATGACCATTTTCCAAAAGTATGTGAATCAGATCTATCTCCTGAATTTTTGTTGCTCGGTAACTGTAGTCCACACCTGCAATTAGATTTGTTAAACCAAATAAAGTCAGAGCCGTTCATTATACTAGACACCTTTAAGCTATATATTGAGACCACAAACAAAGACCTCAAAAAAGTAATTCCTCACGCAGATATTTTAAGCATCAACCTAAACGAGGCGAGAGCTTTGTCAGGCATCAACAAAGGAAGTGTTCAGGAAATGGGAAAGATTATTCTAGACTTAGGTTGTAAATCTTTAATTATAAAGCAGGCTGAAAATGGAGCTTTCTATATTTCAGAAAAAGAGTCATTTTCTATCCCCTCTTATCCCGTAAAGAAACTTATAGACCCAACCGGGGCAGGAGATTCATTTGCTGGGGGCATGCTGGATGCCCTTTCTCAGGGCAAACCATTAATTGAATCAATGTGTTGGGGGTCTACAATAGCGTCTTTTTGTATTGAAAGCGTTGGAATTGAAGGCCTTAAAAATCTGGAAGAAGAAAAAATTCAGGAAAGAATGCTTTTCTTTGAAGGCCTATTGTCTTGATAAATCATATTAATAGAACTAACTTGACACAAACAATGGAGATATCTATGAAATTTTTTAAACCAATATTTTTTTTAACACTTTTAATTGCTGTTGTTTTGGCTGGACCAGATCTTGAATCAGCTAAAATACGCATTAAAGATAAAGATTGGAAAGAAGCAGAAAGATACCTTTTGCTTGCAATTAATCACCCCAAAGATAAATGGGAGGCAGCCTTTCATTTGGGTGATAAAATCTATGTGAGAACTGAAGAATGGGTGAAAGTGAGAGAATATATGAATATAGCTCTTACGGCAGATTCGAACCTTAAGATTAGACCAACAGCCAACGATAGAAAAGTTTCCATTGAGCAGGCTGTTAATGCTTCATTAGCCAAAAGCTATAATTTGATTTACTATAAGGCAACTGGATATTTAAAACTCTTGTCTGCTGCCCAATCTGAAGAACAAAAAAATATGTTTTTAGATCAAGCAATTGCTACATCAAAACAAGCTGTAGATCTTGATCCTAACCAACCTGGAGCCTACGCTTTACTTGCTTTGTATGCTTCAGTGCAAGGACAAAAAGAAGAGGCAAAAAAGTATATAGACCTATCGCTTGGACTTCCTGATTTAACTGAGGAAACTTTGTTAGCTTTGTTAGTTAGCGCTGGTCAATCAATGGTAAGATTGTCAGAATTTGATATTGCCTTAGATTATTATAGCAGAGCTCTTAAAATTGATGCTAACGAACCAAGCGTTTTGAAAAATGTTGGAGCGCTCTATTTGGCCAAAGAAGACTTTAACAGCGCACTAAGCAATCTGAACCTAGCCATCGAAGTAACTGAAGACGATAAAGAACTTGTAGACCTGTATTTTAATCGTGGATTAGTGTATTTAAAAATGGAAAAATTTGATGAGGCTGAATATAATTTTGAAGAAGCCTATTATTTAGCTCCACAGGATGAAGAAGCCTTGCTTGGTTTGGCGAGAGCGCTTGAGGAAGCCGAAAGATGGAGAAAGTCTAGAAATTATTATATGGAGCTTATTGATAAAGATCCGAATAATTCTGCTTATTACTATGGAGTTTATAGAACTTATTTTGGTGAGGGCAGATTAGCGGATGCTCAGGAATATCTTAATAAAGCAAACGCGCTAAGATAATAACTGAAAATTAATATAAAGAATTTCCTGAATTCGCTTCATAAAAAAGCTTTACTGATTCTAATATAATATATCCTAGGGCTCTGTAGCTATTTGCGCTATCTCTATGACCGACAAAGGGAGAAGAAATTTCTATTGAATTAATTTCCCCCCCATTTTGACTACCATACCTATCGACAATATATCCCCCTGAGTTGTAAGGATTGTCTCCAGGACTCGGAGTACTTTCATTGGGAACCACATCAAAAGAATATGTTACATAATCACTGGTATAGGTGGTATCTTTTAGTTTATTTCCTATACTGGTAACGCCCCTAATGATATCAGAAAATGAATTAGAACTATAAGAAGAAATTTGTGCAATACTTGAAACAGAGCTAAGGCTGTTTAGTTCGCTATCAGAAAGACTTAATTGAGAACCTGACAATAAAAACCCCAACTCAATTCTTTGTATATCATGATTGTGACCAATTAAATTTATTAATACAGCCGAATCATATTGCTGTTCAATAGAGTCAACAGCTGTTTGAATAAACTTGTGGAAGGTTGTATATGCTTGAGTGGCATAAGAATTTCCTTGGGCTCCTTCGGTTAAACTTAAATCTGGGTCCATTTTAGATCGATGTAAATTATTCACTATCATATGAGGAAATTTTCCACCTGAAAATCCATTTAAAAAATATGCAAGTTGTTCAGCCGCTTTTCTCGTATTAGTAGCTCGATCTATATTTCCTGTTCTGTCAGGTATTGTTGTTGGCTCTGTTGAACCGTCATGGGGAACTATAATAATAAATGGCGTGTTGCCAAACCTAAACTCAACATTATTTTGAGTATCAGAATAGATTTCTCCAGCAGTATATTTTACAGTGGGGCTGGTTGTTTCTGGTTGTGTAATTCGATTGCTTTCACTGCAACCAAGAAAGAAAAAAATTAAAGAAAAATAGAGTTTAATAGGTAGAACCTTCATTTCCGTTGTGCCTTCCGCGCTTATCTGCTCCAGCAATAAAACGCCCATTTAATTTTTGTACACCATGAACTCTTGCAAGCCCATAGAATCCTTTTTCAGCCTCTCCTTCGTGATTAAAAATATGACCCATAGATTCAAGCTCCTTAATAGTGTCACTAGACAGAGCCATATTTTCATAACGGAGTATATCGGGAAGCCACTGAGAGTGAATTCTTGGATGGTCTATTGCTTCATCAATTGTAAGACCATGATCTATAACGCTAGAAATCACTTGAAGCACCGCCGTAATTATTCTTGATCCACCAGCTGCCCCTAAACTTAAAATAGCATTTGAATCAGGGTCTAAAACAATGGTGGGCGTCATTGAGCTCAAAGGTCTTTTGTGGGGTTCTATTGCATTGGCGCCATTATCACCAACTAAACCAAAAGCATTGGGGACTCTGGGGATACCCGGTTTAGCTGTAAAATCATCCATTTCATTGTTTAATAAGAAACCTGCTCCGTCAACAATTTTTCTATTACCATAACTAAAGTTGATGGTTGTAGTGATCGCTACTGTATTTCCCCAACGATCTATAGCAGAATAGTGAGTTGTTTCCATGCTTTCATAAGTTGATGTTCCAGCCGCAATATCATCGCTTTTATTTGCTTTTCCGCTTTTAATTAGTTTCGTTCTATCCAATGCGTACTGTTTTGAGGTGAGCATTTCTAGGGGATTATTCCAAAAGTCAGGGTCTCCTAGGTGCATAGCGCGATCTGCATATGCCAATCTTTCAACTTCAGTAAATAAGTGGGCATAGTTCGCAGAGTTTCTGTTAATTGAAGATATATCATAATTTTCAAGCATGTTGAGCATTTGAATAAGCAAGGCCCCACCTGAGCTTGGAGGTGACATAGAAATAATTTTAAAACCTCTATAATTACCAATAACCGGCTCACGATAAACTGCTTTATAATTTTCAAGATCTTCCTTTGAAACTAATCCACCATTTTTGATCATCTCCAATTCGATTAAATCAGCGATTTCACCTTTATAAAACCCATCTTTTCCTTTTTTGGAAATAAGAGATAAGGTTTTGGCTAAATCTTTTTGAATTAAAATATCTCCAGGTTTCCATTCATCAAAATTTTTCATACGAGATTGAAACTCTTGTGAATCAAGTTCACCGTTTAAAAATTGACTATGGACAAGCTCGATTTGTGGGTTTTCATTCTTGACAAAGACCTTTGCAGAACCTTCATCTTCAATAAAGCCATCTTTATTATAATCTAGTCCCCAAGCAGTAAACTCACTAATTGGAAAGCCGGTAGATGCATATTTTATAGCAGGCTCAATAAGTTCTTCCAGAGTAAACTTTCCAGAACCATAATCTTGATAAATTTGAATTAAACCCGCAACAGTTCCAGGAACCCCGCTTGATAAATGTGATTTTTGTGCCTTGTTTTTATCGTATTCATTTTCTGTTAGAAACATAGTTTCATAGGCAGCGCTCGGGGCTTTTTCTCGAAAGTCTAAACTGATTTCGTCGCCTTCAGAGGTATGGCCTACCATAAAACCACCTCCGCCCAAATTGCCGTTAGCTGGAGAAGTAACGGCCAAAGCAAAACCCGTTGCTACTATTGCATCAAAAGCATTCCCTCCCTTTTTAAGAAAAGCAATTCCTACATCTGAAGCTAGCTTCGAGGTTGATGAAACAGCGCCAGAATTTGATTTTATACTATGAGACGATGAACAGGCGAATAGGAATATCACGGCAGAAATAGAAAATAATTTTTTCATAGTTATTGAAGATAATAAAAAGCCCCTAAAAAGAATAGGGGCTTTTTATATTTTATGTAATTTCTTTGATTAGAAAGAAATATCTAAACGTGAGTATAGATATCTTCCAAAGAAACCAAAAGGACTATATCCTGAATGCTGGAAAATTCCATTAAAGCTTTGGCTTTTATTGGTTTTGTCCGGATATACGTCAAATAAATTATTCGCTCCAAGAGCCAATCTTGCCTGGCTACTTACTTGGAATGAATACTCCATATCTGTTGTCCATTTTGCACTTAGAATTTGTTTGCTGTCAGGAATAGTTACTTCACCCCAACGATTCATTTTGACCATCAAAGTTGAAGATGGTTTTTGAACAGTTGCAGATAACTGAACGTTATCTCTTGGTGCAGAACTTTCAAAACGTGTGATATTAGTACTTCCTAGCAAGCTTTGGCTTGTGTAAGCAGAAAGGGCAGCAGGGGTAGTTAAGTCATCCTTATTTGTTACCTCTGTATCATTAAAGTTTAATGCCGCTTTCAATAACAAGCTTCCACCTTTTGCTAAATCTTGCTTCATGGTAGCAACAACATCTAATCCATTAGTTTCAGTGTTAATACCATTAAAGAAGTATCTTCCTCCAGATGCTGGAATACCTCTTTCATTGAAGAAAGCTACCATTCCGGAGCCGGTAAAGTTTTCACTCACACTGATTCGATCTTCTACGATAATGTTATATGCATCAATAGCAAGGCTAAATACATCGTCATTGTAGGTAAAACCCATAGATCTGTTAATGGAAGTTTCTGGCTCTAGATCTACAGCTCCTAAAGCACGAGCAGCTTCTGTATCAACAGGGAAGGTTCCAATTTCATATGGTATCCCATTAATAAAGTTAGTTGCAATAGATGAGAAATAAGCTTCTTGGAGAGCTGGAGCTCTAAACCCAGTACTATATGAAGCTCTAGCTGCTAAACCATCCTGAAGTTCATATCTCATAGCAACTTTACCGTTAGTTGTTGAGCCAAAATCACTATAAGTTTCAGTTCTAAGAGCAACGCTCATCAAAAGATTTTCTCTTACATCTGCTTCAGCATCAACATAAAAACTGTAAGCTTCTCTATCACGATCGGTTTCATTATTTGGTGCAAGACCAGGAAGACATTGACAACCTACTGCAGCAGAAGCACCAGCGTTTGGACCATCTAATACGTCATATCCAAAGTCAGCATAACCAGCCTCTTCTCCAGCCTCAATAGTGTAATTTTCCATTCTTGCTTCAACACCCATTGCAAGATTAATAGGTCCATCAATATTGAATGGCTCTGGCCAGTCACTACCGTCTAACTGTGTAGTGATATCTAAATTAAAGGTAGTTTGGCTATAGCCCAGGGTTCCTAAATCAAACTCTGATTGTTGATATTCAGAAACACCAGCAGTAGCATTATGACTGTTTTCCATTCCCCACGCAAAATCATTGCTACCAGTAGTTACACTGATATCATAGGCATAGTCGCCATTTAATCCTTTTAGACCAATGGCCATAGATTTGTCAGACAGAGTAGGACTGATTAGAGGCAGGAATCCATCTGGATACCAAGCTCGTAGAGTACGATTATCATTAGCTCTACGATAATAACATCCACTTTGTCCGTCACGGGTGTTGTAACCACCAAACGTGTAAAGTGTTCCTCTCTCAAGAGGGAAACTACCATTCCACATTAAGCTAACTTGTTCAAATTCTCCCGCACCGATACGATGATTTTCTCTGTCAAAAGCAGCTTCTTTTGCAGCATATTCTGCTCCAGAAAAATATTGTTGTCGTGGGTCTAGACCTGTACGATTAGTGCGTCCACCATCACGAATTTGACCGCTTAAATAGAGATTTCCACCCATAAGATTTAGGCCTGAACCCCCGTGTAAAATTAAATTTTTACCATCATTTTTGAGTACAGTTTCAACGCCTGAACGAGCCCATCCTCTTCCAGGGGTGAAAGGTAAATATCCATTACCTTCATGTTCAGAATCTAGGTCCCAACCAAAGGAAGAGGCACCTTGTCCAGGAAGCATCCCTTCTCCAGCATTATAGCCTCTTTCAAAATAAGAAAGATGCTGGCCATAAGTTACGCTTAAATCTGTACCACCAGATTCTTTTAAAATAATATTAATTACACCAGCAACTGCATCAGAACCATATAACGCAGAAGCACCATCTCTAAGTACTTCAATTTTTTCAATTGCACTTGCAGGTATTGCATTTAAGTCAACCTGAGTTGATCCACGTCCAACTGAACCATTAACATGAACCAAAGCTCCCTGGTGACGTCTTTTTCCGTTAACCAAAACAAGCGTTTGGTTGGGGGACATGCCACGAAGAGTAGCGGGCCTCATATGGTCAGAACCATCTGTAATATATCCTCTTGGAGCATTATATGATGGGACCAGAGACTGAAGCAGTTCATTGGTTTCAGTAAAACCAGCCGCACGAATTTCAAGCTCTGTAATAACCTCAACAGGAACCGCCTGTTCATTAATGTTTCTAGCAAATCTAGAACCTAGAACAGAAACAGAATTACCTGATAAAGCGCTTGAAGAGAGGGCAAAGTTTGCTGTAGTTGATCCTCCACCAATAGTCACGGAAGAGCTCACTGATTCATATCCAATATAGGATACCTTAACAGTATAAGACCCGTCCTTAAGATTATCAATAGAGTAAGAACCATCCTCATTAGTTGCAGCACCGGTTGATGAACCTTGAATTGAAACGTTCGCACCATAAAGCGCATTACCGGATCCGTCAGTAACAGTTCCAGATAATGATCCTTGAGCAAACATCAATCCAGTCATTAAAACCAATGCTAACATTGAATATAGCTTTCTCATTTTATTTCCTTGTATTAATTAGTATGTACATATTAATTATTTATGTTAAAAATTAGCTAAAAATTTAACAATTTTTTTAACTTAGTTCTAAAGGGTGTTGAATGTCAATAGTTTAAGATTGGTACTAATTTTTTTGTTAAAAACTCTATCTTCGACTTCTAAGCTTCATTAGAAGATTTAAAATTTCTATATATAGCCAAATTAAGGTAACCATTAAGCCAAAAGTTGCATACCATTCCATATATTTCGGAGCACCATTTTCTGCGCCATGTTCAATAAAATCAAAATCGAGCACAAGGTTCATTGATGCTATTCCAATAACAAAGACAGAGAAAAGTATTCCAGTTAGACCGTTTCCAAATAGAGAACCAAAAAGCTCAACCCCAAATAGCCCCAAAATCATATTAAAAATATATATAAAGAAAACACCAAGAGTAGCTGAAAAAACACCCAATCTAAAATTTTCAGTTGCAGCAATCAGTCTAGACTTATATAAAAACAATAAAGCGGCTAAAATTCCAAAGGTAATAGCTATCGCTTGGTTTGCAATTCCAGGAAAAATGCTGTTCGCCATCGCTGAAATACCTCCCAACACAATACCTTCTGCTAAGCAATAAATTGGAACGGTGATAGGAGCAGCTTTTTTATTAAAAATGGTAATTAATAATAGAATAAATGTTAAAATTGTAATAGGCCAAAACAACGATAAAGCTATTTCAGGGTTATTCCATGAAAATATTGCTGTAGTCATCAACAAAATTAACCCTAACGCAGTTTTGTTTACTGTTCCATCAATCGTCATCGATGCTTCTCCTGCCATTCTTTGAACGCGAAAGGTGTTTTTGTTTAGTGCGGGGTTAGCAGATCTCATGTATTCTCCTTTAATTTTTTTTGTCGTTAATAAATTCAGAAATTTTATTTATTTCAACTCGATGCTGTTGCATCGTGTCTCTTTCTCTAATTGTGACAGAATTATTTTCAAGTGTTTCATGGTCAACTGTAATTCCAAACGGAGTTCCAGCTTCATCTTGACGATAATATCTTTTTCCAATTGAGCCCTGCTCATCATAAATACATCTATATTCTTTAGATAGTTTATTAAAAACTTCGTTAGACTTTTCTGGTAAGCCATCTTTTTTTAATAGTGGACATATTACGAGCTTGTTGGGCGCCAAATCAAATGGTAGCTTTAAAACTGTTCGATTATTATTTGTGTCTTCATGGTAAAATTCACACAGTACCATTAAAAACAGCCTGTTAAGACCCGTAGAGGTTTCAATGATATATGGATGATATTTTTCATTTTCAATGGGGTCAAAGTAGGTCAAATTTTTTCCAGAATGTTTTTCATGTTGCTTTAAGTCAAAATCTGTTCGATTATGAATACCTTCAATCTCTCCCCAGCCAAATGGAAAGTTATACTCAATATCAAAAGCTGCTTTTGCATAATGGGCTAAATTATCTTCTGAGTGTTCATGAAACCTCAAGTTTTTATCGTCAATCCCTAGTTTTGTACTAAAAAAATCCATCCTTTCTTTTTTCCAAAATTTCATTGCTTCATTATCTTCAGAGGGTTTGACAAAATACTGCATTTCCATTTGTTCAAATTCTCTCGTTCTAAAAATAAAGTTTCTCGCAATAATTTCATTTCTAAAAGCCTTGCCAATTTGAGCTATACCAAACGGAACTTTTAGTCGCATCGAATTTTGAACTAGTAAATAGTTTATATATATACCTTGAGCGGTTTCTGGCCTTAAAAAAATACTTTTTCCTGTTTTTTCTGATGGACCAGCGTTTGTTTGAAACATTAGATTGAATTGAGTTACTTCAGTCCAGTTTCCTACGTTTCCAGAAAAAGGATCAATGACCCCAGCTTCTGATAAAGCCGACTTCCATTCATTGGAATTTTTTAGAAGAAATTGACTAATGTTATCTATTGTCTCGTTATCATTATTATTTTTGATAGATAAAATCTCGCACAAACTATCAATCACTTTTGTTTTCTGTTGAGCAAGAAGATCGTCAACCCTGTAACGCTTTTTACTATCTTTGTTATCAGTAAGCGGGTCATTGAAATTTGCAATATGACCACTCGCCTCCCAAACATCAGGATGAACCATAATAGAGCTATCTAGTCCAACAATGTTCGAATATAGGCGAGTCATTGAATTCCACCATATCTCAGAAATCGATTTTTTAAGTTCAACCCCCAAGGGTCCATAATCATAAGAAGCCTTTAAGCCCCCGTATATTTCTGAATTGGGGAAAACAAAACCTTTGCGCTTGCAAAGGGCGACTATTTTATCTAAGTGTTTTGTGCTCATTTTATTTAACTACATAGAGTTTAAGAAAAAAAATATTTATAGAGGAAAAATATTCCCAAAAAACCAAAAAATAGAGGCGCTAGCCACAACATATTGTCGAAACCTTTTTTGGGAGGATTAGATAAGATGTTTTTTCCATACTTTTCTACAAAAAAATCTTTTATTTCTTGGTTGCTTTTCCCTTCGACAACCATTTTTTTTATTTCTTCTTTCATTTCAAGAGCTGGTCCTGCTTGTGACTGTTCAAGAGTTAGTCCTTCACATACTGGGCACATTAATTCTCTATTGAGAGTGTATAGTCTAGATTCAACTGACGATTGATTTCCCAAAAGAAAAAATAAAAATAGAAAATAAGACACTTTTAAAATATTATTCATCAAAGAGCGCAATGCCTTCCTCCAAAGAAAGAGATTCAATATCTTTTCCTTTTAAAGAAATATTTCTTTTTCCATCTGTAATATATGGTCCATATCGACCGGATTTAATTATTAATTCTTTACCAGAGTCGGGATGTTTTCCTAGAGAAGTAGGCTCATATGTTTTGTTGCCTTCGCTAATCAACCTTATGGCTTCAGAGAGACTGATTGATAAAGGATCCTGAGCATTTTTAATTGATATATTTTTTTTACCATATTTTAAATACGGTCCATATGGACCAAAATATAACATAATATTTTCCTTCGATTCTGGATGCACCCCAAGAAGCTTTGGAAGATCTATCAAGTCTTTTGCAAGTTCTTCAGTCATTAAAATATCTCTGTACATTTTTGGTATTGATTGTCTTTTTTTCTCATTGTCTGTTTCTAGGTAAGGACCATATTTACCAGATTTTAGTAGAATTTTTTCTCCACCATCTGTAGTACCAACAACGTTGTCTTCAATGGACATATTTTTTATTTTATGAATTTCCTCTTCAGATAAATCTCCAAACATTAATTCGTTTGGAATAGTAATATTGCCTTCAGCTTCTTCGATATAAGGTCCATATTTACCGATTCTGACCAAATGACCAGAACTTGAGTCAATAGAACATGCCTTTACAATATCTATTTCACGATCTAGCAAATTTGAAACACCACTAAATTCTTTATTTCCAAAATAAAAACTTTTTAAAACATCTAAGTATGTGTCTTCAGTCCGAGAAATAGAATCAAGTCTTTCTTCCATCCCAGCAGTAAAAGCCTCATTAAATAAGTCTGAGTAATGATTGTCGAGCAGTTGACTAACTGCAATACCTAGGTATGTGGGAATAATGGCTTTATTTTTATTTATTGCATAATCTCTATTATATAATTTATCAATAATAGAAGAATATGTAGATGGTCTTCCAATGCCTTTAGACTCCATTTCTTTTACTAGCATAGCCTCAGAAAATCTTCTAGGCGGAGTAGTAAATTTTTCAATTGATTCGCTTTTAACAAAACCTAATTCTTGTTTGAGGTTTAGGTTTGGAAGAAAGGATTCGGATTTGTCGAATCCCTTGTGTGCAAACAAATTATAAGCTCTGGTAAAGCCATCGAAAACAGTTACATTTCCGGATGAAGCAAACTTTAATCCACCCTTGGCAATGATTGCGTTGGTTCTTTCGTATCTTGCAGTTTTCATTTGAGATGCGAGAGTTCTAGAGAGAATGAGACCGTATAGCTTTTCTTGGCTTGGTTCAAGACTGAGAGTCCCGGGGGAGGTAAAACTACTTCCTGCCGGCCTAATCGCTTCATGCGCTTCCTGTGCATTGGCAATTTTATTAGAATA
>sequence12
AATATATGTAATCAATTCTTTTGGATGCATTGACCAATTGGTTGCATATGAATAAAGATTATCTGATATAGAACGTATTGAATTTTTTGCGAAAGAAAGGCTAGGAAAATAAATATGGGAAGCTAAAAAAGTAGCTATAATGAATGACGAAAATACGCCCAATACATTTCTTTTTTTTCTGTATTTAATAAAAAGATACAACGAGTGAGCAAAAAATAGCATACAGCCATAATAAACTATTTGAACATGGGCTCGTTGAAAAAAGAAACCCAAAATAATTGTCAATAGAGAAAAATTAAGTATTGAATTATTATTATAATATCTGTTTAATAAAAATAACAACCATGGAAAAAATGAAGCGGTCATAAATTGACTTCCGTGCCCAAAAACTATCATTGTAATTAAGAAAGGATTCATGATCCAAAGAATACTTATCATTAAAGAAATTCTGGAGTCTATTCCGAGTTGTTTAAGAAATAAAGACATACCAAACCCAGAAAAAACTAAATGAATAAACTGAATGAATAGATCATTGATGCCTAATGCATTCAGTAATAAGCTAGGAAAATAAAGCAGGTTTATATTTGTATAAGCTTCTAAGGTAGGCATACCGGAAAAAACCCATGGTTGCCATTGGGGCCAAACTCCGATTATTTCTTTATATTTCGACAAGATATGACTTATAGCAAAGGGGTTTAAAGTATCCCCTGAACCAAAAGTGAAGTTGTAAAAAAAAATTGGGTAAAATAAAATAATTACAACCCCAATATATGTTAAAAATTGTAAAAGAATTTTATTCATTTACTTTATCTTTTAATCTTTTAAAAATCATTTTCTCCGCCTTAGAAATACCTATCAATCCATATATCGCAAAATAAACTATTGAAGTAAAAATGAATGCTAAACTAATTTTTCCAACATGCTTAAAAAAGTTTGTATCTTGAAGGGGTTGGTTAAAAAAAGGAATAAAGTCTATTACTAAAAATGTTACAATTCCTACCAAGAGTGGTTTTAAAGAATTAATGGACAAATTCAATATTCTGAACTTACTATAAATCTGTAATAACCTAATAATACTTAGGATTATAAGCGAAATTGAAGTGGCGATTACAGCTCCATTAAGACCGTATTTTGGTATTAATATCCAGTTAAAAAATATGTTAAGAAAAAGACCGATCGAAACATTTAAAAAATTCAAATTAGAAAAACCTGCCATTGAAAGAATGGAAGAGCCTAATCCAAAATAAGATTGTATTAAAATACCTACTGATAAAAATATTAATGAAAAATCATTAATAAATTCATCTCCAAAAATTGAAAGGATATCTGAAGGAAATAAAACAAAAAATATAAAAAGAGGCATTGAAAACATTAGTATCCAATTAGATGATAAATCAAAAATTTCCTTCATTTTCAAATGATTTTTTTCATAATAATATTTGGAAAACATCGGTGAGAAAATTCCTGCAAAAGCAAAGAAAATCATTCTGATTAATCCTGCAGTTCTCTCAATGGGATGATATAAACCTACAGAATATGCATCCTCAAAAGTTGAAAGCATCAAAATATCTGTCCAATGCATGATTATCCCTACAGCTGAAACGAACATTAAAGGAATTGAAAATTGTAAAATTTCTCTATTGAATGAGGTTTTAAATATCTCTTTGATTCTTATTTTTGAAAATCTTCTTGCGAAAAAGAATATTGCTATAATTGAAATAAAAGAAGAAATAATAGTAGGAAAGATAATTGCTGCTAAAGGATTGGAAATAAAATAAATGAGGATCGTAAATACTAATAAAGTTAAGGGAGATAATAATTGGTTGACGAAAATTTTATACTTTAGAGACTGAAAAGCTTGAGTGAATGATGAAAGAATTAGAGTTGTTACAGTAAAAGGTAAAGTTATAGAAAACCATTTTAACAAAATAGATACTGAAATATCTTCTTTTAAAATATTCTGCACTAACCAATCAGATAAAAGAAAAATAACTAAAGCAATTAAAGTGCTAGATAAAAGTGCAGTTTTAAGACTGGACTCTAGTATTTTTTGGATATCACTTTTATTATTTGGATTTCTACTGACAAATCGAAGCACACCTGTGTCTAATCCCAATAGAGCAAAAACCTCTGAAATTCTCATAACTGCATTAGCAATTGAATAAAAACCCAATAATTGCGCGCCAAAAAATCGTCCTAAAATAATAGAAAACAAATAGCGAAAAACAGACCCTATTGACATTCCTGAAAAAGAAATTCCAGCCTCTTTTAAGATTCTTCTTTCCGGATGACTATTTGACATCTTTAAATCTAATCAAAAAATATTTTAAAAAATTGTAGGGTAGAAAAAAAATTATCCAAAAAATTGAAATGGTAAATATCTGAAAAAAATTGGCATGATTCCAAAAAAGTTTAATTTGATTCTTAAATTTTAACGAAAGTTTTGTAAAAGAATTAGAACCAAGAGACTTGGATACATGATGTAAAATAATAGATTTCGGATTGTAAACTATCTCTCTGTTTAAAGATCTAGCCTTTAAAGAAAAATCAACATCTTCACAGTAAAAGGAGTATCTTGAATCGAATCCTCCGATTTTTTCGAAATCAGACTTTAAAATACAAAAGCAACATCCGGTAGCATAATCTGTAATTGATTGAAAAGAAAATTTAGAATCATCTTCTTTTCTAATACCAATATGATAAATGAGACCAAGCCATAAATTAATCCTTGCTCCTGCAAACCAGATTAAATTGGATTGATCTGCGTAAAGAATTTTTGGTACAGAGATAATATGTTTAGGATTTTCTTGAAGAGAGTTGACAAGTTGATTCAAAAAATTACGACTTACAATAGTATCATTATTTAAAAAGACTAAATATTCATTTTCTTCAATATCAATTCTTTTAATAGCCTGATTATATCCCTCTGCAAATTTATAGTTCTCTTCGAGTTTTAAAAAATTTATTTGAGGAAACTTTTTATAAAGATATTCAAGAGAATCATCTGATGAATTATTATCAATAACTGTTAGCTCAAAATTTGGATAATCAATTTTAAGAATGGAATTAATGCAATTTTCGGTTAGTTTTTTTTCATTCCATGTAAGTAACAAAATATGCGCTTTAAGAAAATCGGATTTCATTATTTTAAATTAAGATTATCAACAAAATTTTTCCAAGTCATTTGAATTTTTAAAGTTTTAATGTCTTCTTTGGAGAATAAATTTTCTTTGTTTTTAAAAAAAAGATTGATTTTCTCTGCTATAGAAGAGGGATTTGATTTTGAAATCAACCCAGTTTTGTTTTTTAAAACATAGTCTACTAGCCCCCCAGAATCAGTTACTAGTACAGGCTTATCAAAGTTATAAGCTAATGATAAGACACCGCTTTGACTGGATTTTTTATAAGGAAGTACTACTAAATCTACTTGATTAAAATAATCTTGAATTTTTTCTTCAGAAATGTAAGAATCAAAAATCCTCACTCTATTTTGAAGATTTAATTTTTTAACCAAATTTAAATATTTTTGTTTAGAATCATAAAATTCTCCGACAACCAACAATTGAATTTTATTATTAACTTGATTCATTGCTTCAATTAAAATATCGAGCCCCTTGTATTTTCTGACAAGACCAAAAAACAAAACCGTATCAGAGCTTTCAGTTGAAATAATACTTTTTGAATTTTCAACATTATAAATAGGGTGATATATCTTATTTACTCTAGCTAGTGGATTTAATCTTTTAATGATTTCATAAGAATAATTATTCATCACAATAAACTCATCATTGTTATTTAATAAAATTTTTAAAAATAATTTTTCAAAAAATATATTTTCATGGGATATAACATTATGCAAAATTATCCTTTTTTTAATTTTTGAATTTTTTTTTGAGAAATAAATAAACATTGGCAAAAATGCCCAATGCCAGTAATGAAAAATGATATAATCAGGACGAAATTTATTGATTAATTGCACACCCTTAAACCACGTAAAAATATTATAAAATTTTAAAATTCTATGAGAATTAAAATCTTTACTTGAATCATCAAATTGAGATTTTCCAGGAAATAATAGATTTGGATAAAGTTTTTTAAAATTTAATACTTCAACTGTAGAAGATTTTGATAATTCGATATTGAGACTTTGATGAAACTTAGCAATCCCACCCCTGAAGGGAGAAATTGGTCCAATAGATAAAATTTTCACAATCAGCTTATTATGTCTTTAATATATTTATTTGATTTTTGACTTTTCTCAACAAATAATTCACCCAACAATCCAAAAATGAATAACTGTAATCCAGCAATAATCAGAATAGAACCAAGAATAAGTAAAGCAACATGTTGTTGAAAAGAATGATTTTGATAAAACTTTAGATATAAAACGAAAAATTCTATTAAGACTCCAGTAGAAAATGATAAGAAACCTATTGAGCCAAAAAAATGAAGTGGTCTATCTATATATTTTCCTAGAAAAAGAATAGTAAGAAAATCAAAAAAACCTTCAAAATAACGACCAATTCCATATTTTGATTTTCCAAATTGTCTTGGATGATGATTAACAATAACTTCTGAGACAGAGAAATCTTTCTGTTTAGCTAATAAGGGAATATAGCGATGCCTTCCTCCATATAGTTTCAATGCTGAAAATACTTCCCGTTTAATAACTTTTATACCTGTATTCGAATCATGGATTCTCAATCCCCCAAACAAGCGAAGAAAAAAGTTAAAAATCTTCGAGGCAATTTTCTTTTCGAAGGGATCTTTTCTGTTTTTTTTCCATCCGCAAACAACATCATATCCATTGTTAATTTCGTCAACAAGTTTTGATATCTCGGAGGGATCATCCTGTAAATCACTATCTAGAGTTGCAATTAATGAACCACTTGAATGTTCAAAGCCCGCCTGAAGTGCAATAGCTTTTCCGTAATTGCGATATAAATCTACAATCTTCCAAGAAGGATTTTTTTCAATAACACTTTTTAAAATATTTAATGAAAGATCTGTAGAACCATCATTGATAAAGATTACTTCATATAAAAATTCATTTTGAAAAGAATCAAGCAATTGTTGAGATAAAATAGGAATAGACTCTTGTTCATTATAAACAGGAATAAGAATAGAAATTTTATTCACTACTCAAAATTCCTTGAAAAAATAGAAAGATTGAAATCTTGATTAATCGAATCATTTTTAACGCTTATTTGATTTAAAAACTGCATTCCATATTCTTGATTAAATTCTTGACTAATTATTAAGTTGGGGTAATCTGCTTGTTCAATTTTTTCCCCCCAAAGCAATTTCTTAATAAATATATGTTCAAAAAATATGCCAGAAAATTGTGGATATTCATTGGTAAACTGATCTGAAGTGATTTCAATATTTTTTCTTAAATCTACCAACTTAACAGTTTCTTCATTCGAATCAATGGCAAAACTTTTTCTACCAATGAAATCTTTAAAAACGACTAAATTATTTAGACGGGAAGATTCAAAAATAAATGAGGAAATAAAATTATAACTTCCTTTCGCGACAAGCTTTCCTGATCCTTTGACGAGTTCATAATTTACTTGAAGTGATTCTATTGTTGCATTTTCATTTTCAATTTCAAAAATCAATGTTTCCTCAGGTATTGTCGAAGAACAGCCCACAAGAACTGTGAAAAGAATAATGGTTAAATTTTTCATTCTAAATTTTCTATTTTTTCTCTAATTGATTCATTTTCTTCAATTAATAAAGACTTATTATAAAATATAATTGCCCTGTCTATTTCATTTAAACCAACTAAAACATCAGCATAATGCTCAAGCACTACAGCACTATTCTCATCAAAAATTAATGACTGAGCTATATATTCTTCGGCTAATTTTAAATCTCCAGTCTTAAAATAAATCCAACCCAAAGTGTCTAAATAAGATGGATTATCTTTTTCAATAACATTGGACTTTATAGACATTTCAAGCGCCATTAATAATTGTTCATTTCTTTCAACTAAACTATAAGCATAATTATTAAGAGCTTGGGCATCATTAGGGTTAATTTTCAATAAAGATTCATAGATTTCATCTGACTGAATCCATTTTTTATTTTGGTCTAAAACCATCGCAAGTCCATGCATTACAGGAAGAGATTTGTTGTCAATTTCAAAAGCTTGACTATAGTAAAATTCTGAATCAGTAAATTGCTTCAAATTATAATATACAAGTCCAAGTAAATAGTTTATTTCAAAGTCATTTTGAAAAATCTCCTTAACTATATTTAATTCGTTTAAAGCTTCTCCATAATCTTGAAGATTCAAATAAGAAATTATTTTGTTAATATATCCATCACGGTCATTCGGAAAACTCTGTATGTATTTTTTTGATAATTCGATAGATTCTTTGAATTTTCCTTGCTCTTGATAAGTAATTGACAAGTAATAAAGTGGAAATCGATCATTGGAATTTATGTTCATTGATTTTAAAAAATAGGACTCAGCTTCATCTAATTTTCCTTCTCTTAAAAACTGAAATCCTATTTGATTGTATAAATTGTTGATAAGAGGATTAGTTTCTATGCCAGGAAAATCATTCAGTAAAGATAATAAATAACCATTACTATCACTTCCTTCAATTGACTCAATTAAAATTCTTAGATATTCAGGGCTAGCAACATTAGAGATAAAAAGCTCCTTAGCAATTTCAATTTTTTCTCTATGGTCTTTTTCAAGGGCTAACTTAGCTGCAACTTCCAAAGCTAAGGTAAGATTTTTATCTTTTTTATATGCTTCACGATAATATATTAGGGCACCATCGATATCACCTTTTTCAAGCTTAATATCTCCAATTATAAAAAGAATTTCACCAGTAGAATTATTCAGCTCACTTGCTTTAAGAAAAACTTCCAAAGCTTCATCAAGTTCATTCAATGCGATTAGTTTTTTCCCTAATGAAATTCGATAGTCAATTGCATCTGGGCTATTTTCTATAGCTCTTTTTGAAAAAAAGATACTTTTTTCGTATTTCTGAATCATCCAATATCCATCAGATAAATAGTAAAATAATTCTGATGAATTAGAACCTCTCTCAATAGCCTCTTGAAATTCAATTATCGCTCGAGCATATTCACCTTGCTCCATAAACATCATTCCGTCGATGAAATTATTGATTCCATTTTCTAGGGATTCTGTTTGAGTTTTGGAAATAATTTGCTCTTCTAAAGGATTATTTTCAAAAGAGACTTTTTCTCTTGAAACTGAGCAAGCACTCAGAATGACTAAAAAAACTAATAAATATTTTTTTTGAGTAAACATTGCTCAAATTACATCTCTATAATGAGATATTCAATTGAGTTAAGATTTACTTTTTATCGTTCACAAATGAGCCATTAAAATTATCCAACTGATCAAGTTCTTTAATTTGCTCATCATTAGAGTTTTTTGATGGTGAATCAATGATATTTTTCTGTTCATTTTGAATATTTTCATCTACAACAATTAGATTAGAATTTGGCTGAAAGAAAAGAAATGTGAGGACTAAAATCCCAAATACTGACAGTCCAGAGAAAATCCATTGTCTTGGATAGCTTGAAAAAAATGATTTCTTGCCATCATTGCTAAACGACAAACTTTCAATTCTCAACTGAAGTCTCTCTTCAAAATTTTTAGAAACTTTTAAAGGTTCAGCCTTCTTCATTAACGAGATATTATTTTTAATATCATTCACCAATGATTTATAAGAATCATTATGATTTAATAAATCTTCAAATTCTTTTCTTTCTTTGAAATCCATAGATCCATCTAAATAAGCTAAAATGCGGTCTTCAAAAATATTTTTATCCATTTACTTTACTCCTTATATGACTTCAACTTTTCTGCGAGCATAATTCTTCCCCTATTGATTCTTGATTTAATTGTACCAATAGGAATTTCTAGTATCATACTAATTTCTTCATAAGAATGTTCCTCAAAATCTCTTAAATAAACTGCTATTCTAAAATTTTCAGGTAATTCTAATAAATATTTATTCAGTTTTTCGACAGCAATTTCATTCTGAACTTTTTCGTCTAGTGGAATTTCACTTGAAGCAATATCAATAAATTTTCCATCATCAGTCCACATCGAATCACTCTTCTTAGCTTTGTTTTTTCTTAATTCAGTTAAAGCATTATTTTTTGCTATCGTATAAATCCATGTCGAAAACTGGGCTATATCTTTATAATAATGAGCGTGAGTGTAGAGCTTAATCAATGTTTCTTGGACAACGTCTTCAGCTTGCTCTCTATTATTAAAATATCTCATGACAAAATTGAAAAGTTTATCTTTATATCTTTTGACTAACTCCTTATAAGCATTGATGTCCCCATTAACAAAACGGGCAACTAACTTTTCATCAGAAAGCTTAAAAGGATTATTCATTGCTGAAGATTTCAACGATGAGTTTAACAAACTCTGCGTCATCTAAATTCCTTCTTTGTTTTTGTTTTTTATCTGCTTCATATAAAGCTATTAGTGCATTTTCAATTTCTAACATTTCGAAATTTTTGTGTGATAAGCTTACTCTTTTCAAAATGTTTGGTTTTAAACTTGAATGCATAGGATTAACATTTGTTCCATCATTTAAATGATTAAAAAATAATGCTTCAAAGATTTGAAACAGGCTTGATATTATAAAATTCATTCCATATTGAAGATATAGTGAATTCCCAATCAATAAAATATCGTGTAACTTTTTATCTAACACGGCATAATTGAACTCCCACAATTGTTTATTTTTATGAGAATTTGAAATTGATTGATACCACTCATCATAACTGAATATTTTAGATTCAATGAGATAAGAAATCTTAGTTATTTCATTGTAAATCGAATGAAAATTAGTTCCAAATATTGAAACTAAATCTTTCTTTAATTTTGAGGAAATGGTGATATTTTTTTCATTTTCGAAAAAAGAAATCCAGCGTATCATATCACTTTCAAAAGGAGTTGATATATCAATTAACTGACAGTTTTTAGACAGTGTAATCGAATTTTTTGACTTAAGAAGGTTCTTTTTAGTTCTGTAATCAAAAGATAGAAAATTATTATCTACGCCAAGGATTAAGTTCTCTGATTCAAGGTTATTTTGAAAAATTTCAACAAAAGTATTGATTAATTTTTCTGAAATAGAGTCGATATTTTTTAAAATTGTAATTTTCTTATTTGAAAAAAGTGTCAGGTTTGATAAGGATTCTATTGCCTCTTGAAGTTCAATCTTGTTTGAACAATCAAAAATATATATCTCAGAATCAGGGTGAATGGATTTTATTTTATCTTTAATAAATAAGTATAAAAAATCATTATCCCCAGCCAAAAAAAGATTCTTTGATTTTTTTAATAAATCAGTATTTATTTCAAAAATCTTATTCATCTTTATAGATATAGCTAAAAATTACTATGGCTAAAAAAGCAATGATAAAGCTTGATAATCTTTCAGTAACAATTGATTTTAAGAAAGAGTTACTGCCCCAAATAATTGTTGAGATTGATCCAGATAACAAGCCAGCAATGACACCTTTAGTAGAGGTTTTATTCCACCACAAAGAAAGAATTATCGCAGGACCAAATGAAGATCCTAATCCACTCCAAGCAAAACTAACAATTCCAAAAATCGAATTGCCAGTAATTTGTGAATATATTGCCATACTATATGCTATAACACCTAAAATTGTAGTAATTAAACGAGTGTTCTTTAGCAAATCAATTTCAGTGCTTCTTTTTTTAAATAATCTACTCAATCCTAAATCTTCACTTATCGTTGAAGATGAGACAAGTAGTTGAGAATCAGCAGTTGACATCATTGCAGCTACAGCGCCTGAGATTAATAATCCTGCAAGCCAAGAAGGTAATAATGTAGAGGCTAAAAGAGGCATTACGGTTTCAGGGTCTTTGCCGATAAAATAATCTTCTCCAAAATAAGCTAAACCAACAATACCAATTAAAAAAGCGCCTAAAATTCCAGGAATCGCCCAAAATGTTGCTATCCATTTTGCAATCTTAACATCTTTTACAGATTTGATGGCCATATATCTTATCAACAAATGAGGTTGACCAAAATATCCCAAACCCCAACTCATTCCACCCAAAGCTAATAAAGTCATCGATGAAAAAGAATCTAAAGAAGAAAAAATAGAATTTTTAATGGGGTCTGAACTAGCAAAAAGAATATTTTCAAAACTTGTACCGCTCTCAAATAAATACAAAAATCCTAAAGTAGGTAAAATAACTAGAGTACCAATCATTAAAAATCCCTGAATAAGATCAGTCCACGCAACAGCTAATAAACCACCTAAAAGTGTATAAATAATTATAATAATAGCACTTAAAGTAATTCCATAGATTGGATCAATTCCAAAAATCTGCTCAAGTATCTTTCCAGCTCCGTGAAATTGAGCTGAAACATAAAAGGAAAAAAATAGAGTAATAATTCCTGCAGAAATTAATTTAATTGTTCCATCGTCATTAAATTTTTTTTCTAAATAATCAGGGATTGTTACCGCGTTATACTTTTCGGTTTCATCACGCAACTTTTCAGCAACTAAAAACCAAGAAGATATAATACCAATAGTTATACCAAGCACAGCCCAAATTTCACCATAGCCGATTGCGATTGCAGCGCCGGGCAAACCTAATAAAAGCCAAGCAGATTCACCGGACGCTCTTTCTGAGAAAGCAGTCACCCAAGGTCCAAGTTTTCTACCAGCTAAAAGAAAATCTAATTTATTAGCAATAAACTTATTAGAAAAAATACCAACAAAAATAATTAATAATAAATAAAGTGAAAAAATTAATTCTATCATATTAAGAAACTCACAATTATACAATATACACCAAAGCCAATAAAGCTAAACTTTTCTAGAATTTTTATCAAAAAAACTAAACTTAAGTATCCAAAAATAAACGAAGAGGAAAATAAAACTACGCTTGACTCAAAAGATAAAATTGAAAAACCACTAGCTGAAAAAATCAATTTATAAAAAATAGATAAAATTGTGGCTGGAACAACCATATAAAAACAAAATTTGATTATTTCGCTCTTTTTAATTCCAAGGATAAGCGCAGCACAAATTACCGCTCCAGACCTTGAAATGCCTGGCAAAATAGCTATAGATTGGAAGATGCCCAATACTAAAGCAATCTTATTGGTTAAATCAAATTTAAAAGTATTGGTAAGAATCGTAGCTGAAATAAGCCAGACACCATTAATTAAAAGAGCTTTTTCTACAAAACCAATATTAAAGTATGATTCAACGTCAAATACTAAAGCAAAAACTATTGCAGGAATAGTTGCCAGAACCAATTTGGTAAGATTTTTTGAATGGAAAAAATCAGAGGGGTGCTTTCTAGAGAAGAATGATGATCGATAAAAGTAAATGATACTAAACAAAGTTCCAAAATGAGCTATAATTTCCTCTGTAGCATCTAAATTTGAAATATTAAGAATATCTTGTCCAATTACTAAATGACCCGAACTACTAATTGGAAAAAATTCGGTCATACCTTGAATTATTCCTAAGATAAAAAGCTCAATTAGATTATTCATTTCTATAAATAATCCCGGTTATTCTTTTTGAGGTTTTGTTTTTTCTATAAGAATGGTAGTTTTTATTTTCATAAGTACATTCATTACAAAATAGAGTATTTATTCCAAAATTTGAAAAGTTTTCTATAGTAAAATCCTGAAGGCTTAAAAAAAGTTTCTTATCAACTATTTTAAAAAATTTATCAGGAAAATAGTTTTTCATTTCTTTGGTGACTTCATAATTTTTTTGACATATTGATGGACCAATAAAGGCACAAAAATCACTTGGGCTTAAATTTTGATTTAAAATTAATTGAATAAAATTATCTATAATTCCATCGCTTAATCCTCTCCATCCAGCATGCAAAATACCAAAGATATTTCTCGAGTTATGATAAATGAAAATTGGAAGACAATCAGCTGTTTTTACGGACAAAATTGAAGATGAATTAATAGCTAATAATCCATCCAACTTATCGTTTTGATTGAATTCTTCAAGAAGAGAGATCTTATTTGAATGAATTTGGTTCATAGAAAATATTTTTCTTGAACTGTTCAAATTATCAAAGGATTCGTTTGAGAAAAGAATTGTATAGTTTGGAATAAGAAATTTTGAGGAAAAGTTAATTATCATTCAAATTTTGATTATTAGAAAATTTTATTAACCTATTTGACTCAAATTGGTAAATATTTACGCTCTTATTTACTGAACCCAAATTAAAAGAAAACCCTCTGGTCATTCCATTTTCAAATGAATTAGAAGAGAGGTCTGAGATTGTTAATGCTGACTTTAGGAATTCTGATATGTCATAGCCATAGTGAAAAAAATAATTTAAAGAATTATTGTTACCATAATCATTTCTGATTTTATAGTTAGGGTTATAGGCGCTGCTATATATCATTTTTTGTATATGAGGAGAAATATTTTCTTGACGTAAAAATTCCATATCAAACCATAAGTCATTTCCAATTAACTGAGTATCTAAATTGGAAAGAGATATTTGAGTTGCAACAAATTTCATTTCGTTATTGGATACAGGCAGATAAACTGCATCGATAGTATCTAAAATGAATTTTGAAGAATCTATTTCAGCTTCCTGGCTAATATTAAATCTACTATATAAATCATCTGTTTCAATTTCAAACATCGAATCTAACATGTCGATCTCTGCACCAAGGAAATCTTGATATTCTTCTTCATTTTTCTTTTCCCATGCAATCTCCCTCAAAACATCAAAATTACTTCTTAAATCTATATCTCCATTTATATTATAAAACTGAACAGAAATTGGCTCAATATTTAGTTGGTCCATTTCAATTAAAATAGAGTCTACTTCTCTTCTTCCAAAATCAGAATCAGGTGCAATGATTGCCAAAGAAAATGAATCCTTGTCATTGAAGTTTTTTACTAAATAGTTTAATAAAACCTGATTTTTTACTTTTAATGATGAATTAAGAAGTAAAACATTTTTGTTGATTTTATGAACCTCTTCGCTTGTATAAAATGGAGATAAAATTATTGTATCACTTCTTGAGTATAAAGCTGCTGCACTGAGGAGATTTTTTTCATTAAAGGGACCAATAACCGCAGATACTTTATATATATCCCTTAAAACTCTAAATGCTTCAATTGTTTTGATTTCTGATCCATAATTATCTATCACAATAAATTCTTTTTGATACCTTGAGTTTGAACTATTATTTGATAAAGTAAGACCTTTTAAAAATGCATTGGCTTCATTGGAATTTTCTCCAGTTAAAGGCAAAACAACGCCTATCCTGTTAGAGTCAGAATTATTTGAAATCTTTTTTTGAATGAATTTGTAAGCTGATCTTAGCTCTCTGTTAAAAGTTGATGAATTTATTTTAGGGAAAATTGAAAAATAATTATCAAAATTATCTTTAGAAAAACATTGAGCGAGATAAATCAAGCTTAAATTGTCTTGATTTAATTCCATCAGTTCAAGAGAATGCAGAAACTGGTAATCTAGACCGAGCTGTAAAGTTGAAGATAATCTTTTATATATAATATTATCATTTTTTCTGTCATTATTGAGTGCATTAGATTTTAAGTAGTTTTCAAATGCAAAATTATACAGCTGTAAATCAGCAAAAATATCTCCTATCTCTAGGAAATATAGACTCAAAAAATCATTATTTAAGAAAGTTTCTGAAAAACTAGAATGTATTTTAAGAGCATCTTCATAACGCTTTAAACCTCTTAATGATTTTATTTTTAAAAGAACCAAGTTTTCATCTAGCACTTCATACTTTTCAACTTTTTTTAGAGCGCTCGAGTATCTGCCTTTATTAATATCCTTGACTATTTCATCGTAATTTGATGCATCATTTACAACAAAAGATTGTGTGAATGCTAAGGTAATTATAAGAAAAGTTGTTATAAGTTTCTTCACAGAGAAAGCTAAGAATAATTTTTATTATTTTTTACCAAAATATAGCGCTGAAATACCATGTATAAACCAAAAAGAAACTAGAAGCCACCATAACATGAAAAACCAATCATTTTTATTTGTTCCATTCCAAGACAAAGCTTCAAATACGATAGCTTCCATAAATAAATCAAAAATAACTAATACAAGAAAGCCAAATATCCAGTTTAAAATATATTTAAAATTTGCTTTGATTGAATTTTGATTAAAGAATAAAGATAGAAGTCCAAAAGATACAAAAATACATAAAGCTAATAAGATTTTTTCCACGATATTAAAATCCAGTGATAAAAGTTAGTGGAAAATTAATAATCATTAATGCTAGCTTATCAAAAAATTCACCTACACCAAGTGCAAGCCATAGAATCAAAAATCCTACAACTATTTTAATCATATTCACAGTTTTAGTACTAATAGCTTGATTGAGTTTAATTAATACTTTGTCGAAATAAATTAAGGATGTAAGAATAATACAAAATCCAAAATAAGGATCATTTCCCCAAAAATTATTAACAAAGCCAATAAATAAAAAAAATATCCCAAAAAAGATGCTTAACATATTTCTATTTAAATTACCTTTCAAAGAATTTGTTCCTGAAGATTAAGTTCCATTTTAACATCACCTCTTGAATACTTGTCTGAATCAAGAACAACTTCTTTAAATCCGAATTTGTCATAAAGTTGTCTCGCTATAACCAATTTTCGATTTGATATTAAAATAATTTTTTCCGCTTTTTGATTTCTTGCAAAATTGATACTTGCCTTCATAAGTAATTTAGAATATCCCCTACCTCTATATTTTTTGGAAATAGTCATTTTTGCAAGTTCATAAGATTTAGATGAAATTTTAATCATTGCACAAGTACCAATTACCGTATTTTTTTCTAAAACTAAAAATATTTCTCCTCCCCCTTGAGAAATGATTTCAGGATATAATAAATCTTTTTTATCTGAATTTTCTAGTTCCCAATATTCTTCTATCCATTCTTTATTTAGAAGAAAAAAGTCATTGCGATAATTATTATCAAATGGAATTAATCTAATTTCAGACATTTCTTCAATCACCCTTCAATTTACAGATGGTTACATTCTATCTATTGATTTTTTAACCTTTCCATTTACTCTTATCAATGAGATATAAGTAATTTTCTTTTTTTTGTAGTTTAACTTTTTTACCACCAAGTTTTTCAATAGATTTTTGTGAACGAAAATTATTTTTTCCGATTTCGAAATATACTTTATCTAAAAATTGAAAAATATAATTCATCATTAATTTCTTAATTTGGTAATTAATTTCAGTACCCCAATATACGTTAGAAATAAATGTATAACCTATTTTTACTGATTGTTTGTTTTCATCAAATGAATAGAATCTTGTATTTCCAATAATTTTATTTATTTTTTTATCAATAATAGTAAAACAACCTTCACTATTATTTATTCCACCATCAAAATATTTTCTAAAATTATTTTTTTTCCATCTATCTTGATTTGGGTGTTGTTCCCATATTACTGGGTTACTACCAATTTGGTATAATTCTTGAAAATGGTCTTCTGAAGTTTGTACTAAACGAACGTAATTATTTTCTAAAGTTATTTTGAATTCAATCAAAATAACACCCCCTTAGGTACTTATTCCACAGTGACGGTTTGTAGTTTGGAGTGGGTGTTTAGTTTTTTTATTTGGAATCAATTAGTTCTTCTATTCTTTTTTTGACTTCTAAAGGACTACTTATTGTATTGAAAATTAAATAACTATTTCCTGTACCTGTTAATTTGACATCTCCAAATCCAAAAATTCTACCCCAAAATGATTGGTTCATTTCTACGGTTTCAGTTTTTGATATAAATAATTCTTCAGTTTTTACAGAAATAATACCTGTTTTTTTAACTGATTTTTTTGTTGTTACACCTTGGTCTGTAAACTTTAGGTTTAAAAAACTCATAATTGATACAAAAGTAAAAAATAATGAAAATGGAAGAAAAACGAATCCCAAGAAAAAGTAGATTACCGGTGTTAACCATACAAACCAGTGATAGTTAATCACTTCTTTGATTTCTTCATTTGATGTTAATGATTTTTCTAAATATGACATTTTATAATCTAAAGAAAATAATTGAATATTCTAATGAATTAACCCACCCCAAACTCTACTCCACAGTGGTCGTTTGTGTTTGGTGGTGTGGGTTTATTCTTTTTCATTTTTAATATCTTCTATAATCTCAATACCCATATCTCTAGTTTGATTTACAATATCAATTATATCAACCATATTGTTATTTCCTTCCCAATATTTTTGAAGTCTATTTCCCTTGTCATAAACATTTATCGATATATAGTATGTTGTAAAGGTATCTTCATAACCACCAGGTGGTAGAAATGATTTAAAAATTATCTCTTTTTCATTACCAAGAAGATTTTTTTTCTTTGATTTGAAATATTTTACAAACCTTTGTTCTGTTGGAATACTCATTTTTTTACACCCACCACCATACTCACTCCACAGTAACGCTTTTAGCTAAATTGCGAGGTTGATCGACGTCACATCCCTTTTCAACAGCTATAAAAAACGCGAATAATTGTAAAACTATAGTTGAAAGAATTCCAAAAATAAATTCATTAGATTGAGGAACCGAAATAATGTCATCACATAATTCTGATAATTTCTTATCATCGCTATCTGTGATTGCAATAATTTTACCATTCCTAGACTTAACTTCTTCAATATTTGATAAAATTTTGTCGTATGACTTGTCCTTTGATACAAGAAATACGGTTGGCATATTTTCATCGATTAGAGCTATTGGACCATGTTTCATTTCTGCTGCTGGATATCCTTCTGCATGAATATAAGAGATTTCTTTTAACTTTAAAGCCCCCTCGAGAGCAATAGGAAAATTGATTCCTCTTCCAAGATATAAAAAGTCAGAAGCATTGCAATATTTCAAAGCTACTTCTTTTATATTTTTTTCTTTTATTAGAACTTTCGAAATATTCTCACTTAAAGATGAAAAATCTAAGCATTGGACTATTTCTTTCTTGGATAAAGATTTTTTGCTTTGCGCCAACTTTATTGCTAACAAATAAAGAATGGTAACCTGAGCAGTAAAAGCTTTAGTAGAGGCTACTCCAATTTCACTTCCGCATCTTGTAAAAACTCCACAATCAGTTTCTCTAGAAATTGAACTTCCTGGAACATTACATATACCGACTGTTGTTGCTCCCATTTCTTTTGATTTTTTAATTGCTGCTAGCGTATCTGCAGTCTCACCTGACTGAGAAATCGCAATTACACAGGTTGATGAGTCAATAGGAGAATCATTATATCTAAATTCAGAAGCATAATCAACAATAATAGGTATTTTAGCAAATCTCTCAATGAATATTTTACCGATTAATGCTGAATGCCAAGAGGTGCCGCATGCAGTGATGTAAACCTTGCTAGAATTAACAATATTATCCCAATAAGACATTAAACCGCTTAAGAGTACATGTTCATTGTCAATTCTTCCGCTAATTGTATTAATAATAGTTTTTTGTTGATCATGGATTTCTTTATGCATGAAATAATCAAATGTTCCTTTCTCAATATCTTCAACCTCAAGATGAACCGTATCAACAATTTTCTCTATAGATTCTCTTGTTCGAAAATCATTTATTTCATAGTTATCTCCATTGATAATACATATCTCATGATCTTTAAGATAAACTATCTGATTGGTGTGTTCTATAATAGCAGAAGCATCACTTGCAAAGAAAAATTCACTTTTACCAATTCCTAATAGAAGCGGGCTTGACTTTCTAGCTCCAACTAACATTTCAGGAAAATTTTTATTTAAAATAACAACCGCAAAAGCTCCTTCGACAAGTTCAAGAGCAGCATAAATTGCATCCAGATATTCTAAGTTCTGATTCTTTATAAAATAGGAAATTAATTGGACTAAAACCTCTGTATCAGTTTCTGAATTGAAAGAAAAGCCTTTTTTTATTAGAAAATCTTTTAGTGAAGAATAATTTTCAATAATTCCATTATGTACTATAGCAATGTCTTCTAAACTATCGAGATGAGGGTGAGCATTTTCATTGCTTGGTTTTCCATGAGTAGCCCATCGAGTATGCGCGATTCCTATATTGGAATTCATTTTAATTGAAGATAAAATTTCTTGTTCTAAAATTTGAACTTTACCCACTCTTTTGTTCTGCAATAATTGATTATTATAAAGTGAAACAATACCCGCAGAATCATAGCCACGATATTCTAATCTCTTAAGACCATTGAGAAGAATAGGATAGCAATTTTGTGTTCCTTTGTAAGAAATAATACCGCACATACGAGAGTAATCTAATAATATTTTAACTTAATAAAGCAATAGTTTTTGATAATTGCTTTTTTAGATTTTTTCGATCTACAACTTGATCTATAAATCCTTTTTCTAGCAAAAATTCAGCAGTCTGAAATCCCTCGGGTAAATCTTGCTGAGTAGTTTGCTTAATTACTCGTTGACCAGCAAACCCGATCAATGATTTAGGCTCAGCAAAGGTTATATCTGCCTGCATTCCAAAACTAGCAGTCACTCCACCAGTTGTAGGATACGTAAGAACTGAAATATATAAACCGCCAGAATCTGAGAATTGCTTCAAATAAGCACTAACTTTAGCTAATTGCATCAAAGACATTGCACCCTCTTGCATTCGAGCACCACCTGATTGACAAAGAATGATTAAAGGACATTTTTTACCTTTAGCATAGATAATTGACTGCTTTAAAATTTCACCAACTGCACTTCCCATACTTCCACCAATAAATTTAAAATTCATTAAAGACACTACAACTTCTTTTGAATCAATCTCGCCAAAGTATGATTCAATGGCTTCGGATGACTTATCTGATCTATCTAAAATTTCTTGATAAGCTTTATTGGCTTTAAAATTTAATAGGTCAGTAGATGTGATATTAGAACAGATTCTTCTGGGGTTCGTATCAAATAAAATAGAAATATAATCATTCAAATGATACGGAAAATGAAATCCACAATGATGACAAATACTTAAATTAATTTCTAATTCAGGAATATATAAAATCTCTCCACAAGAACATTTTTTCCATAGATTATCTGGAAGATCTTTCTTTTGACCATCAATAATATTTTTTTCTTTTCTTTTAAACCAACTCATTTTGATTCCAAATTAAAAGAAGCTATATAATTTGGAGTTAAATTGGAATCTATATTGAAATTTTTAAGATCAACTTTTTTAATCATTTCAATTATCTTCAATGCAGAAGGTTGTATAAAATACTTTTTCTTTATATCTTTAAAATTAGCAACCCATTCCTGATCATCTTTCGAAGCTATAATATAAGCCTCATTTACGTTAAGCTTCAACGAATCCAATGATACTAAAATAGGAGTGAAATTATTAATTTGAGTATCATTTACAATTTTTTTATAAAAGATAAATCTTCCATGTGAATGAATTATTATATGAATAGGGTAATTTTTTCTGAGAAAATCATCATCAAGAATTATATCAAAAGTATCAAGCGGAACGATAGGAATTCGTAAAGCTTTAGAAAGACCTTTTGCATAACTCAAACCAACTCTTAAACCTGTAAATGATCCAGGCCCAATTGATATACCTATGCAATTTAAATCTTTAAAATTTGAGTCTAATTCATTAAGAAGTTTTTCGCAAATTACTGGTAAATGTTCAGACGAAAATTTTTGATTTTTTATAGAATCAGATGAAATGACTCTATCTCCTATTTTTAAAGAAACTTGGCAATTTCTTTGGGAAGATTCTATAGCAAGAATATTCATTCTTCTAACCAAATTTTTCTTTCATTTTGTGATACATATTCGAAAAAAATGGAGATTTTACCTTCAATTCTGATAGAGGAAATCAATTCCGGCCATTCAATTAATGAAAAAGAATTTTCTCTAGAAAG
>sequence13
AATAATAGACGAGTTTGCTTTTAATACTTTATTAGAGAAAATTCCCGTAACCATAATTTCATCATATGTAGGGATTACCAGATTAGAAACAGATATTTGTTGATTATATATCTTGAGTTTGTCTCCAACATTTACTCCTAGTCTAAAAGCTAATTGATCACCTATCAACAAAGTATTTTCATCGTAGGATGAAATTTGATTAATAATATCTAGATTATAAAAAGAGGTTAAGCTTCGTTCCTCAACTGACTTCAATTCTACTACGAATTGAGATAATTGAGATTCAACAAAAACTTTTTCAGAATTTGACTGATTATATAATAAGTTGTTTTGATCTAAAAAATGAATAATATTTTTATCAGAAGAAATGTCAAAATTATCGACAGAATAATTACCAAATACTTTTGAAATTTCATTTGAAAGTAAATTTTGAAAACCATTTAATACACTAATCGAAACAATTAAAGAAAAAGAACCAACAAAAATTCCAATGAATGAAATAATGTTTGTTAAGTTCAATGAATTTTTTGTGAATAAAAATCTTCGAGCAACTAAAAAAATTAATCTCATTAAAGTTGAAGGGTCTTAGCTAAGTTGAAAGATAGTTGTCTTCTAATTAAATAAACTGTGAAAAGAAAAGCTACCATAAGTGAAACCATTACTAGTAAAACTGAAATCATAAAATTGAATTCCATTGGGAGATATTCTATGGAAAAATATATATCACCAGAAATCTTCAAAAAATGTAGTTTGTTTTGTAAAAAAATAAATACATAAGATAGAAAAATTCCAAAAATTGAACCAATTAAAGTAATTAATAAACTATAATAAACAAAAATTGACATCAATTGATTCTTTGATAAACCTAACGAATTCAAAATAGCTATTATTTTTCTTTTCTGAAAAATTTGGATATTTAATGATCCTATTAAATTGAAAAACCCAACTAATGCGATCATTCCAAAAATGATTATTGTTGGTAGTTTCTGAGCATTCAACCATTCAAAAAGTGAACGATATTTCTGTTTATTCGAAACTAATAATAAACCATCTGGCATTTGGGAAATCAATTTATTTTCAAAAATGGTAAATCCAGACAAATAATCTTCTCTTGAAAACAATTTTTGTACAGTATTTAAATTAGAATAAATTAGAAACTCATCAAATTCATTGATACCAGAATTATAGATTGAACTAATTGTAAAAAAATCTTTTTTAAATGGAGATTCATTCTCAGAAGTAGTAATAATAACTTTATCGCCTACTGAAAGATTAAGATTCTCAGCTAGATCATCACCAATAATAATACCATTCGTGTCATTAATAGGTCCAATGGTTTCCTTTAAAAAAGAAATCTTTAATAATGCATTAGTATTATAACCTTGAATCAATGCTGGTTGAGTATTCTTTTTTGATTTTATTAGTATCTTACCTTCCAGGAAAGGTTCTATAGAATTTTTGTCTTGTAAATCAAATTGAACAGGTTGGAAATATTGTTTTGATTCATGTTTAATTATAAAATAACCAGAAATGTTAGCTAATTTTTTATCTAGCTCATTTTGGAAGCCATTAATTGAACTTATAACAATATTTAAAGATCCAATTCCCAATGCTAAGCTAAAAAAAATTATATAATTGGTCGCTTTAAATAATACATCACTTTGCCTAGAAAAAAGAAATCGACGTAAAAAAAGAAGTATTAATCTCATTTGAGAGTTTTAAGCGTAGGAAAAATAATTGAATCTCGAATCCATCTAGTTCCAATAAATAGCATTGCTATTCTATCTATCCCTACTCCAACTCCAGCTGTTGGTGGCATTCCTGTTTCAATTGCTTCTAAGAAATTTTCATCAATTGGAAATGCTTCTTCATCGCCTGAGTTTCTTTTCGAAGACTGGTCTTCAAATCTATTTCTTTGATCAATAGGATCATTTAATTCTGAAAAACCATTTGCAAACTCCATACCAGCAATGAAGAGTTCAAATCTTTCAGTAAAACTTTTATCATGACCCCTGTGTACTTTTGCTAAGGGAGAAATCTCAACTGGATGGTTAATCACATATGTCGGTTCAACTAAATGTGGTTCAATTTTTCTTCTCATTATTTCATCAATTAGTTTTGCAACTGAATCAGTTTTTTTAACTTTTAAATTAAGTTTTTTACATAAGCTGTAAAGATCATCGTGACTCGAAAGATTGACATTCTCATTTAAATGTTCCTTAATTAATTCATCCATCGTTTTTCGATGAAACTTTTTAGAAAAATCAATCTTAACATTATCAATTTCAATTGTTTTCATTCTTAAATCTTTGGCAATTTCCTTAAACATTTTTTCCACAAAATCCATCATATAATGGTAATCAACATATGCCTGATAGAATTCTAACATTGTAAATTCTGGATTATGACTTCGATCTACTCCTTCATTTCTGAAATCTTTAGACATTTCATAAACTTTTTCAAATCCGCCAACAATTAATTGTTTAAGATAGAGTTCAGTAGCGATTCTTAAATAAAACTGCTGATCTAAAGCATTGTGGTAAGTAACAAAAGGTTTTGCATTTGCACCGCCATAAACAGGCTGAAGAACAGGTGTTTCAACTTCAATATATTTGTTTTTATTTAAAAAATTTCTTATTGAATTAATGATTGTAGCTCGCTTGATGAAATCATTCTTTACTTCAGGATTAATAATTAGATCAACAAATCTTTTGCGGTATCGAAATTCTTTATCTGAAACTAGATTAAATTTTTCCCCATCTTTTTCTTTTACATCTGGTATTGGGCGAATACTTTTTGTTAATAATTCTAGTTTTTCAATTTTCAATGTTGCCATATTTGTTTTAGTAATAAAAACTGTACCGGAAACACCAATAAAATCACCAATATCAAGCAATTTAAATAGTTCATATGTTTTTGAATTAACATCATCTCTTGAAATAAATAATTGAACCTTTCCATTCATATCTTGCAAATTAAGGAAGGAAGCTTTACCCATTCTTCTCAAAGACATAATTCTTCCAGCTAAAGAAGTTTTTTTCCCAGAATTTTTTTTAATGATAAAATCTGTTGAATGTTTCGCTTTGAAAGAATACGGATAAGGATTAATACCTAAATCTAATATTTTTTGGATTTTTTCTTTTCTGGCAGCTATAATCTGAATTAAACTTTTATTTTCCATCTTAAATATTATTTATTTTTTCCCATTTTTTCTAACAAATAACTATAAATAAAATCATCTAAGTTACCATCCATCACAGATTTTATATTACCTGATTCAAATTTAGTTCTATGATCTTTTACAAGAGTATATGGATGAAACACATAAGATCGAATCTGATTACCCCAAGCGATATCTTTTTTTTCTCCTTCAATGTTTTTTTCTTTTTCGATTTTTTTATCTAATTCGACTTGATAAAGCCTTGACTTTAGCACCTTTAATGCTTGCTCTTTATTCTTATGTTGAGATCGTTGTGTTTGACATTGAGCAATAATACCAGTGGGAATATGAGTTATTCTAATTGCTGAATCAGTTTTGTTTACATGCTGGCCACCAGCTCCACTTGATCTAAAAGTATCTATTCTTAAATCTTTTTGATCTATTTCAATCTCGATATCATCATCAATAGAGGGCACAACGGAGATGGATGCAAAAGATGTGTGTCTTCTACTATTTGAATCAAAAGGTGAAATTCTCACTAATCGGTGTATTCCAATCTCTGATTGTAATAGGCCGTAAGCATATTCACCTTCAACTTCAAAAGTACAATCTTTTATTCCTGCCTCATCTCCATTTTGAAAATCTATTGAATTAAAGGTAAAACCCTTTGATTCAATCCACATAGTATACATTCTGTATAGCATTAAAGCCCAATCTTGGCTTTCAGTACCTCCAGCTCCAGGATGAATAGAAACTATTGCATTGCTCAAGTCATGCTTTCCATTTAGAAGAAGATTAAATTCAAATTTCTCTATTTGCTTTGCAACATTACTTAATTCTGAATCAAATTCCTTTTCCGAAATTTCATCTTTTGAATAAAAATCGAATAAGATTTCCAAATCTTTAAAGGAATCACTTAGTTGTCGTTTAAACTTCAAATCTTTTTCTAGGAAAGATATTTTCTTGAGAATTGAAGACGTTTTAGAATTATTATCCCAAAGCGCGGGATCAGAAATTTCACTTTTTAAAGAATTAATTGTTTCTTCGAGCTTGCCTAAATCAAAGATACCCCCTCAGTTGAGAAAATTTATCAACTAGGGAATTGTAATGTTCATTTAAATCCATAAACTACTAATGATAAATCCTAAACTAAGTAAAAGACCAGTGAGGAAATGAATTCCAATAGTAGAAACATTTACTATTAGTAATTCATAGGGAAGTTTTTGTAAGTCAGCATTATCTTTTTCCCACTCTAAAAGCCAATTTAAACCTTTTTTATTGGCAAAATTGAAAAGGAATATTGGTAAAAGTGCAATCAATGCTAAAGGGTTAAAGATAGCAGATGAGATGCCAATTATTATAAAAGCAATAATCATTGAAATTCTCCAAACCTTGAAGGGTTTTCTATAATTTGCTTTAGGATTTGGACCTGCTAATCTTACAACCCAACTATTTTTATTTACACTTTTATCGGCACTATAGTCTTGGAAACAATTAATAAACAAAACTAAAGCGATAAGAATGCCAACAGGAATTGAAAAAACTAAACTAACTATAAGATCTGAATTAGGATTTTGAACAAGATTCGAACCAACAACCATCAGGGGGCCAAAACCTAAAAAAACAGCCAAATCACCTAAGCCATTATAGGACAACCTTAAATATCCAGTATACAAAATACCTAAAAGAATACCAGCAATTCCAATATACATCAGCGGCGAAGCTGCAAAATAATCTCCATATAATTTATTATTGAGATCACAACCAAAATAAATGGTTAAAGCAAAACAAAAATAGCTAAATAGCACTAAAGACAAAGGAGATATAAGACCAGACTGAATAGCTCGTGAACCGCCGTTAAAGGGGCTAAATAATTTATTATTTTCATCATTCCTTGACAAATGATCAAAATAATCATTGATTGTATTGGTACCAATATGAGCAAATGATGCACCGAGTAAAACTGGCCAGAATAAACTCCAATTAAAAATACCTGTCTCTGAAAAACCAATAACAGAACCTAAGATTACTGGAACTACAGTGGCAGTCAAAAATGGTGCTCTAATAATTGTAACCCAATATTTTAGACTATTCAAAATTTTTGATTTCAATTCAGAGAATATAGAAAAATTATTTTCAGGAATCTCAAGCCATTCAAACTGTTTTTCAGCATAGAAATCAACATATTTAATTAAAGTTGGAGAAACTTTATAATAGCCCACTACATCATTATCAATTAAAAATTGATCATTCATATATTCTTCAAAAGCGGTAGTGACCTTTAAAATCATTTCTTTCGCTTTTTCTTTTTCTGAAGGATTTACAATTTTAGAGGCATAGCCATCAATCTGAAGTTCTTTAATACCTTCTTCCCCATCTGGCCGTATAACTATCTGCACTTTGGGATTGAAATTGATTTGAACTGCTTTTCTCGTGGGATTGAATGTAAAGAAATAAATATCTAAATCATCATTGGCAAAATACACATTTGCAGCAGATGGATGACTAAAAACTGATGTTGATAAAGTCATAAAATCAGCACGATTCATTAAGTCTAAAATTTTATTTTTTAAGTTGTTATCAGCACTATTCATCTTGATCATCATTCATTTTTTCCTTTAACAAACCTCTTAAATCGTCTAAAGAGAGGTTAGAACTTATAAATAAACCATTTTCAGCAACAGAGATTTTTCCATTTTCTTCAGATATTACAACTGCAATCGCGTCACTTTCTTCTGAAATTCCAATAGCTGCTCGATGCCTAGTTCCCATTTCGGCATTCAGACTTTTTGTATCAGATAAAGGTAATATACAAGATGCAGATTCGATTATATTGTTTTTAATAATTACTGCACCATCATGTAAAGGAGAACTGGGATTAAAGATTGAAACTAATAATTCTGCACTTACTAATGAATTCATCTTAATTCCTTCCGATGAAATTGAACGTAATGAGTTTTCTCTTTCAAATACTAATAATGCTCCCCATTTATTTTTTTTAATTTCATCAATGCTTATAATAATATCTTCACGAATTGAACTGCGCTCTATTTGAAATAACCTTCTAACTAATCTATTTTGACCAACTGCAGTCAGCAATCTTCGTATTTCGGGCTGAAATAAAATTACAAAAACTACAACCCAAACTGTTTGAAAGAGATTTAATAACCAGGATGTTGCCTTAAAACCTAAAATATTGACAACAAATCCTGCAAAAAATAGAATAAGCAATCCCAGTAGCATTTGGCCACCTCGAGTTCCTTTAAAGTAGGAATATGAATATAAAAAGATTGCAGATATCAAAAGAATATCGATTAAATCTGTTAGAGATAGTTTTAAAAATCCAATTTCAAACAAGTTCATCCAACAATTTAATTATTTATTCTTTAGTATTTAAAATTTTATTATGAATCATAAAAGCTCTTTTAGTTTCAATAACATCATGAACCCTAAAAATATGACATCCACTTTGAAGAGCAAATAAATTAGCTGCTATAGAACCCTCAAGCCTACCATCCTCAGTTGTATCTAAAGTTTTCCCAATAAATGACTTTCTTGAAGCTCCAATTAATATTGGATATTTCATTTCTACAAATTCATGTACATTCGATAAAATTTTAAAATTATCTTCAACCGATTTTCCAAAACCAATTCCAGGATCAAGAATTATATTATTTTTTCTAATTCCAGATTGATTTAAAAAATTAATTTTTGAAATAAAATAGGCTTTAATATCATTGATAACATTTTCATATGATGGATTTATTTGCATAGTTTTTGGATTTCCTTGGATGTGCATAATAACTATTGGGCAATTAAAATCTTGAACAACTTTAATCATTTGATTGTCAAATGATAATCCACTTATATCATTAATAAAATTTGCTCCATTGAGTAAAGCTTCTTTTGCAACATCGGCTTTAGTTGTATCAATAGAGATAGTTATATCTGATTCAGATCGAATTTTTCTAAGAATTGGAAGAACTCGATCCAGTTCTTCTTGAATTGAAACAGGACTTGAAAATGGCCTGGTTGATTCTCCACCGATGTCAATAATATCTGCTCCTTCATCAACCATTTTCATGGCGTGATTATAACCAGAATCTAAACCTAAAAATTTTCCACCATCCGAAAATGAATCAGGAGTTACATTGAGGATACCCATAATCAAAGGGTGTTTATTTAAAGAATCTAACCAAGAAGAAAATTGAGAAATATTCACAGATTAAGATGAACTATAAGATTCAGTCAATAGCTTGATGTCTTTTTCATCAATAGTTTCTTTCTTCAATAAATCGTTAGCCATTGAATGTAGAAGTTTGATATGCTTCTTTAGAATCTTTGTTGCTGTGTTTTGTGCGTTATGAATAATCTTTAAAACCTCATTATCAATTTTTTTTGCTGTATCTTCACTATAATCTCTCGAAGAGTGAAAATCTCTTCCAAGAAATACCTCTTCATTCCTTTTGCCAAATGACATGGGGCCCATAACATCACTCATTCCCCATTCACAAACCATTTTTCTTGCGATCATTGTAGCTCTCTCGATATCATTTGATGCGCCAGTAGTCATTTCATTAAAAACAATATTTTCTGCTGCTCTACCACCCATCATTACAGCTAATCTGCTAAGTATATAAGTTTTAGAATATCCATGTTTATCATCAATTGGGAGCTGCATTGTAACACCTAATGCTCTACCTCTGGGAATAATTGTGACTTTATGTACAGGATCAGCTTCGGGTGAAAAAATGGCTACAATAGCGTGACCGGCTTCATGAAAAGCTGTAATTTTTTTCTCATTATCAGATAAAACCATACTTTTTCTCTGAACACCCATGATTACTTTATCTTTTGCTTCTTCAAAATCTTCATTATCAATTGATAACTTTTTCTTTCGCGAAGCGAGAAGAGCAGCTTCATTGACTAAATTTGCTAAATCTGCCCCAACCATTCCAGGGGTTCCTCTAGCTATATCAAGTAATTTTACTGATTTAGTATTAATTTTTACTTTTTGGGTGTGAATTTTAAGAATTTCAAGTCTTCCATTAATATCAGGGACATCTACTACAATTTGCCTATCAAATCTTCCAGGGCGCAATAAAGCTGAGTCAAGAACATCTGGTCTATTTGTAGCGCCCATAACAATAATATTTGATTCGTTGTTAAATCCATCAAGCTCTACAAGCAATTGGTTTAAAGTTTGTTCTCTTTCATCGTGACCTCCACCTAATCCAGCTCCTCTTTGTCTACCAACTGCATCAAGTTCATCAATGAAAACGATGGAAGGTGCATTTTCTTGGGCTTGTGAAAATAAATCACGAACTCTTGAAGCGCCAACTCCAACAAACATTTCAACAAAATCGGCACCACTAATGCTAAAAAAAGGAACATTAGATTCTCCAGCAACAGCTCTAGCTAGTAAAGTTTTTCCAGTTCCTGGAGGGCCAACTAACAAAACTCCTCTAGGAATTTTTCCTCCTAATTTTTGAAATTGTCGTGGATTTTTTAAAAAACTAACAACTTCTTGCAGTTCTTCTTTTGCTTCAGTACATCCTGCAACATCAGTAAATTTTACTTTCTTGTTTGTACTTGAAAACATTTTGGCTTTACTTTTTCCAAATGAAAAAACATTATTCATTCCGCTATTTGCTCCTTGCATTCTTCGAATCATAAAAATCCAAAAAGCAATTAATAAAAGCCATGGAGCAAATCCAAGCAACCAACTAGTCCAATCAATCTTCTCACCTTCAAAATTGTAAACAATACCTTTTTGATCCCAAATTTCAAGCTGATCAGAGTAGTCACTAGGAAGATAAACAACAAAATTTTTTCTATCGTCAAATTTAGCACCATCTTTATTAGTCAGAGATGTAGGAAATTCTAATTTTCCATGGAAAGAATTATCGCTCTCAATGGAAGCTTCTTTTATTAAATTTTCAGATAGTAATTTCTTATAATCATTGTATGTAATCTCAATTTCCGTATTCTGCTCATTAGGCAACAAAGATAAAGATAACATGACAAATAAAATAACTAACAACCAGATCAATCCACTATTTGAGGATTTTGATTGTTTTGTTTGATTGACTTTTTTGGGTATAGGTTTTTTTGATTTTGCCATGGTTGTGAATTTAATAAAAAAGAGGCTTAAAAAAACTATTTCATGATATATGATAATTTGACAACTCTTTTAGATGAATCAGTAATCTTAAATGAATCATCGATTCTTTGACCGGCTAAGCAAATAATTTTGTCATTATTGCAAATAACCAGTGAATTATTCTTTTTATCAAAAGATATTTTGTTATCTTTTTGAAATTGATCAATACTTTTATAATTCTTTGAACCTAAAGGCTGAAATTGATCTGATTTTTTGGGTGATCTAATAACAAGAGTTTTCTCTATATGTTTTCCATCAATAAACTCGGTATTTTTAGAGAATTGCAGATTTTTATTTGGACTAAAATTCCATTGAAATGAAAAAGAACTGTTATCAATTTTTTCTCCTTTTTCAGCAATGTAAAACCTTTCTTGAAAAGAAAATGTAGGATTTATAATAAAAATATGTTCATAATCAATTAAAATTTTATGACCCATGATTTCATATTCGGAGCTAGTTATCTTTTTATTGAAAAAACTTTTCAATTCTGAAAAATCGTTTTTTGTGAAATAATTGGTTTCTTTCGAATTTAGAATACGATTCACAATGTTTAATTGAATCAAAATAGGAAGATTAAGAAACGAACTTTTTCCAAATTTTAAAAAAGTGCTATCTTTTGATAGATTATTTTTCTGTAAAAAATAATCTGTAGAATGATTAATTACTTCATTTGATTCTCTTATTCTCTCCTCAAAATTTTCAAAAGGAGTATAAATATTGGAAGAGATTTTATTCAAATCTTTTACAACAACATTTCTTATAAAATTTCTTGAGAACTTTAAATCAAGATTAGTAGGATCATCAATATATTCAATACTATGATTTCTTGCATAATTTATTATTTCTTCTTTATAAATATTTATCATTGGTCGAAATACTTTGTTGAACTGTTTTTTTAATCCGAAAAGATGATTTAATCCCGATGAACTGAAAAAGCGAAATAAAAATGTCTCAATTTGGTCATTGTAATGATGTCCTGTAAAAATATGGTCAAAGTTATGTTCATCTGCTAGGTTATTTAAAATATCATATCTTTTTTCTCTAAAAACCGATTCAATATTAGAATCAATTTTTTCGCTATTGATATAACTAATTAAAAAAGGAATAGAGTGTTCCTTGCAGAAATTTGAAACCAACTTTTCCATTTCATCTGCTAAAACATGGTATTTGTGGTTGATATGACAAACAGAGAAATTATAATTTTGATTAACTAAGTAGTGTGCTAAACACAAAGAATCAATGCCTCCTGAAACGGCTACTAAAATCTTTGAACTTCTATCAATCTTAAAATCAACAAGATTCTTTAAAATTTTTTCTTCAAATGCCATTTAAAAAAGGATTATTTTTGAACTCCTCAATAGTTGATGATTCATCGCCATGTCCACTCAAAATTTTATAATTAAAATTAGAAAAGGTTTTTTTAAAAGATCTTAGAGATGAATCCATGTCCAATGGGTTACTCCCCGGCAAATCAGTCCTTCCAATAGATCCTTTAAAAATTAAGTCCCCACAAAAAATCAAATTATCAAAAATAAAACTTATACATCCTGGAGAATGACCGGAATTATGAAATATTTGAATATCAAAATTATCAATTGATAGTTTATTGGTATCTGAGCTAATCCAATTAGTCACTTCAGGTTTAACAGCATTAATTCCCCAATAATTTGACATTAATTCAAAATTATCTATTACAGGTTTACTTTTTTTTGATAAGTAAAAGGGAATATTGTATTCATTTAAACACTCGCTCACTCCTGCAACGTGATCAAAATGAGCATGAGTACAAAGTACTGCTAAGGGAGTTAATTGTTCGGTTTCAATAATTTGCTTAAAGAGTTTAAATCCAAGACCAGGATCAATGATTAAACATTTCTTATCTTGATAAACTATATAAGTATTTTCTTCAAGAAGCTCCGAAACAATTCTGTGATATTTCAACATTAAATCCTATCATAAAAAAATGGAAGTAAATTATTAATTTTATCTTGGAAAGAATGTGGATTCAAAAACCTAATTGTTGCAGCAATTGATGATAGTAAGGAATTTCCATCTTGAGGAGTAAAACAAAATCCACAAATTTCATTACCATTCTTAACATTAATAGTGCTTTCAACGACAACAGTTTGGTTAAGAATTCTTCCATAAAAACCCTGATCTCTTCCAAATGAGAATATTTCATTAGCTGACATATGTTCAGTCAATGCAATTCGATCATTATCCCTTAATAGTTTTATTACCTTTTCTTTTGATGTAGCTTCCTTAACCTTTAAGTTAAACCAGACAACATGCATATATTGACTATTTACGATCATTGCAGAAGAAAATAAATTAAGATCTAAATTCATTGTTGCAAAAAGTGCATTGGCATCTTTAGCATGATGAGTACCAAACACTTCATCTTTATGATTATTTACTGTTGGAGATGGAACAAAACCTGAAGATTGGCTAATATCACTACTTCTTCTAATGCATACAAATTTGCCTTCAATTAAATTATCAGGACCATTATTCAATGCTAAAGTCTGAACTAAAGATGCAATATTATGTGTATTACATGAGACAATCTGTAAAAATTGGTCCTCTAATGAAATAACGTGATCATTAATACCTCTTGCATATTTTTTACCAAATCCATCTTCACTTCCTTGAGCTAAAAACCCTTTAACTCGATCTTTGTAGGGCATATAAAATTCTTGTTTATTAAGGTTGCCAAATCCCTTTGGAGTACAATCAATAACAACTGAAGATCGTGCGATAGCTTCTTCCATTGAAAAATCAGGTTCAAGGCCAATTGCTTTGAATTCATCTATTCTTTCTTTTAAAACTGATAATCTAGCTCCTTTACGGATTAAATTTTTTATTTTAGGAAGGTCAGCAGTGGTCGGTGAATGCTTGTGAAATGTAACCTCATCGATACCAAGCTTACTTTTCATTTCACAAAGCATTCCAATTAATGGCTCTCCTATTGTACCAGTACCTACAATGTGAACAACTTTTCTATCCATAAAATCCCCTTAAAGTTTTTTTAAATTATTAAAATTAACCAAAAACCAAATAATAATAGCACCAACAACAATTATTAGAGAAAAGAGAAAATAATTAAAATATTCGTACATTTATAATTTAGAATCTTTTAAAGTTAAAATCTTATTCTTCAAATTTACCATTGTAACCATTAAAAATGTGAAAACAAATAGTGAAAAAAGAAAATAATTTAATATTCCTGAAGGTTGTTTATTCATTTCAACTTGAGGGTGAAGTTGGATTTCTTCTGCCCAAAAAGTTACAGAGGTAAAGATAATCGGAATATCAATAAAAGCGATAATTCCTAAAATACTACAAATTAAAGCAGCTCTTTGTCGATAGAGACCTATATTTCTTAGAATAAAATATCCTACATAGAGGATAAAAAGCAGCAATGTAGTAATTAACCTTGGTTCCCACACCCAAGGTTTACCCCAGATTGGTGTAGCCCAAATAGGCCCAGTTATCAATACTAAAGCAATAAATAGCGTTCCAACCTCTGCAGATGCCAAAGCTAAACGATCGTACTTTAAATCTCTTTTAAGAAGATATAAAATACTCGAAATCATTACAAAAAAATAAGCCAAAAACCCAGACCAAGCAGCAGGAACATGAAGATAGAATATTTTCTGTGCCCATTCTTGATCAGGAACCATTGGAGTAAAGAAAATTATAGCAATGAGGTTGATGAAAAATAAAAAAATTGTAATTATAAATAATGCTAAATTCATTTACTTTTTAATTAATGTATTAAAAAATTGAACGCCCAATATAACCGAAATTAAACTGTAACTCAATAAAATCATAATGGAAGGTAAGCTACTTATATTCCCGTCAATATATACATTCGTAAAAATTCGAGAGCTATTAATTAGAATTGGGGTTAGTAAAGGGAAAAATATTAGCGGGAAAAGAAAGCTCTTAACTCTTTCTGAAGATGTCATTAAATAAACAATAATTGCCAATGAAATTATTGAAATATTTGCAATCAAAAATAAAGGAAAGAGAATTGTCAAATCACTAATTGAAATCATAGGATTTAATAAAGAATAAAAAAGAAAAATAAAAAATTCGATAATCAATAAGACAGAAGTAAAGACTAAAAGCTTACTTAAAAAAAATAAATGTCCATCAATAGGAGAAGAATAAATTAAATCATATATTCCATATTCTTTTTCTCTTGCAAATGAATTCTCAACTACCTTTATTGATGAAAAAGAAATAATAATCCAAAAAAAACTGCTGAGAATATTTGGGTCATTTAAGAATGTTAATGGCATAGAAAAAAATAGAAGTATTAAAGAAGATAAAGCAAAAAAACTTATGTAAAATAAGTTAAATGATGACTTTATCTCAATAATTATTTCATTCTTGATTAAACTAAATAGCATTTTGCATTGATCCAGATTGAATTAAGTAAATTTCATCCGCAATTTCTTTAAATAAATGATGATTATGAGTTGAAAAAATCACAGTTCGATTTGCAGATTTTAATTTATTAATTAAATGTTTTTGAGTATTGATTGAATCGTCATCTAAATTTGAAAAAGGTTCATCCAGTAATAAGTAGTTCCAATTAGTACAAAGCGCCATTAACATTTTATTTTTTTGAAGATTTCCCCTGGATAAGTTTTTTAGTTGTTTATCTAGTTGTTCATTTAAATTAAGCTGATTGACATACTTATTAAAAATATCATTGTTAAAATCTGTATTATAAAGAGAAGTGATAATCTTAATATTTTCTTGGATAGTTAAATTTCCAATTACGTTGTCCTTATCACTTAAAAAAAATGTTTTAAATCCATTTTTATTGATGCTTCCCCTATCTATTTCAGTAGTTTGGGAAAGACAATTAAGCAATGTTGATTTACCAGATCCATTATTACCTATGATCATTATTATTTTTCCCAAAGGAAAGTCTATGGAAAGATTTTTCAGGACATGATTTGAACCAAAGGATTTATAAAGTTTCTTTACAGATAACATAGCTTATTATCTTTTAATTAGAGGTCCAAAAACATACAATAAAACTAAAATATAGCAGAAGAAAATAAAAAGCTGGTTAAATATTTCCATTCCTGATTCCTGATGGCCAAAATGCCAAAATTGCACCCAATATCATTATAATACTACCAATCCAAACCCACGAAACTAAGGGGTTTATCATAATTTTAAAAAAACCTACATTTCTTTCAGCATCATAAGATGAAAAAATAGAATAAATATCTTTACTTAAAGTTGAATTAATATCTAATTCACTATGAGGTTGTCTTTGTTCGGGGTCTGAATTCCAATAAAAGTAAACTCTTTTTTCTGGAAAAAGTTTTCCGATAAAAATATTTGATGATGAGACAATATCAAAATCACTAATAAAAGCAAAATGGTTTCCTCTCGCTTCACTAGAAATATCATTAAGTTTGAAAATGTAATTTGAAAAATATATTTCTTCTCCTGGCTTGAGACTAAACTCTTTCTCAACTTCAAATGCTTTACCAATAAAACCGACGAACATTAAAGTCAAACCAATGTGAACTATATAACCTCCTGAACGATGTCGATTTCTAGAAAAAGTGCTAAGCAATGAATCAAAAAAAGGAGCTGACTTTCTATGTTTAAGAAAGATTCTATAAAATTCAGAAACTATTGCTGTTGAAGTAAAAATGATTCCTATTAATGTTAAAAAAACATAAAAATCAAATTTACTTAAATAGATAAGTAAATATGCAGCGCCAAATACAAAAGAAAAGAAAGTCGGGATTCTAAATTTTTTGATAATTGATTCTCTTGATGTATTTCCCCAAGAAAGTAGTGGGCCCATTCCCATTAGAATCAATAATAAAATTCCTAAGGGAACATTTAAAGCGTTGAAATAAGACTGACCTATATGAATTTTTTCATCATTCCATGCTTCAGAAAGAATTGGGAAAAGCGTTCCCCAAATTATTGTAAAACACATTATAACTAGTAAAAAATTATTAATTAGGAATCCACCCTCTCTAGATTTAATGGATTCTATTTTATCATTTACAATTAATTGTGATTTATTGACATAATAGGTTCCCAGACTGATTAAAATTAAAAGGATCAAAAAAGCAAAAAATATTGGCCCCAAAGATTCAGCAGTAAAAGAATGAACAGAAGAAATTATTCCACTTCGCGTAATAAATGTTCCGAGTATAACTAAAATAAATGAACCTGAAGCAAGAAAGAAGTTCCAAGATTTTAAAATTCCTTTCCTCTCCTGGATGATAATCGTGTGGATAAATGCTGTTAAAAGCAACCAAGGCATCAAAGAAGAGTTCTCAACCGGATCCCATGCCCAATATCCTCCCCATCCCAGCTCATTATAAGCCCAATATCCTCCTAGAATTATTCCTGCTGTTAAAAAAGTCCACGTAAATAATGACCATTTTCTCATAGAATAAATCCATTTATTTGAAAGTTCATTGGAGATTAATCCTGCAATGGCCATCACAAAAATTATTGTGGTACCAATAAAGCCCAAATAAAGCATAGGTGGATGTATAGCCATAGTTACATTCTGAAGAAGGGGATTTAATCCATTTCCATTGGAAACAATTATGTCTGAGCTTACTGGTTCAAAAGGATTAGCTATAAAATTATTTAGCATTAGAAAAAATGCTAAAATCACATTAAGAATTAAAAAAGAAATGTTTTTGATTGATGGTATTTTCTTCAAAGTATATAGTATAAAAAATATGCTATAAAATGATGTGATTGATGACCAAAATAATAATGAACCTGCTTGCCCTGCCCATAAGGCAGTCATTTTAAAAAATAAAGGAGTTTCATAGCTTGAATACTGAGCAACGTATTGTAAATTAAAATTACTAACTAACAATTCATTTAAAAGACAGAGGTTGGCAAAAATAATACAAATACATTGTGACAATAAACTTCTCTCAATAACCTGTAAGTATCTTTGGTCGTTTGAACGTTTGTAAATGACAAAGAGAAAAAAATTAAATAATGATAAAATTCCCGCTAAACTGAGGGTCAAGCTTCCAATTTGAGAAATCATTATATTGAGCTTTTATTTTTCAAATCACCCTCATATCTAGATGCACACTTTGTCTGAAGCTCTTCAGCAATAATTCTATTATCTCTATAAGAACCGGTTACAACAACTTCTGCGTCATCTTTAAACAAATCAGGACGAATTCCATTATATTCAACTAGAACTGTATTTTCTGAATCATATACATAAAATGATACCTCAAGTAAATTATCTGGGTTAATTTTTATACTATCAGGCAATATCCTGCCCCCTAATTTCATTTTATTTATTTGAGAGACATTTTTTGATAATTCAGAAACTGTAAAGTATTTTATAGATGATAAATTTTTTTCATCATATTGAGTTAAATAGATTGTCCATGATACAACAAGTATCATAGAAAGTAAAAGAGTTAAATAAAACTTATTCATCAAAAACTAAAGGATTCTTCCCATTCTCCATATACAGATTTCATTAAATCAACTATCTCACCTAAGGTTCCACCATGTTCAGCAACGTCAATAATATAATCAACTAAATTTTCATTTTCTATACAGGCCTTTTTTAAAAGACTTAGCTTGTCCTGTAGTCTAGAATTATTTCGATTATTTCTTATTGATTTTATTTTATTTATCTGATCTGTTTCGGCTGCATGAGAAATCTTGAGAATTTCAATATCAATCTTTTCATCTTCTTCAACAAACTCATTTACTCCAACAATAATTCTTTTCTTAGAATCTACAAGCTCTTGAAAATCAGAAGCGGACTCAGAAATTTTTTTCTGAAAATATCCATCTTCTACAGCCTCAACCGTACCACCCATCTGATTAATTTCCTCAAAATAATTTGAAGCTTCTTCTTCAATTTCATCGGTTAATTTTTCTACATACCAGGATCCACCCAAAGGATCTGCTACATTTGGTACCCCTGTCTCAAAAGCAAGTATTTGTTGAGTTCTTAAAGCAATTTTTGCAGCTTTTTCAGATGGAAGAGCTAAAGTTTCATCTAAAGAATTAGTATGTAAGGAATTAGTCCCTCCCAAAACTGCAGACATAGCTTCATACGCAGTTCTTATGATATTATTTTCTGGTTGTTGGGCGGTTAAAGAACATCCAGCTGTCTGAGTATGAAATTTCAATTTCAAAGAACCTTCATTTTTTGCACCATATTCGTTTTTGAGTTTATTTGCCCAGATTCTTCTTGCTGCTCTATATTTTGCAATTTCTTCAAAAAAATCTTGATGCGCATTGAAGAAAAATGATAATCGATGGGCAAAACTATCTATATCTAATCCTCTTTTGATGCATGAATCAATATATGTAAAGCCGTTATTAAGTGTAAAAGCAAGTTCTTGACCAGCAGTAGATCCGGCTTCACGAATGTGATATCCACTAATAGAAACAGGATTATATAAAGGCATATGATTTGAACAATATTCGATTATATCAACTACTAACTTTATTGAAGGATTTGGAGGAAAAATCCACTCTTTTTGTGCAATATATTCTTTTAAAATATCATTTTGAAGTGTCCCTCTTAATTTTGAGATATCTATCCCCCTTTTCTTAGCTAATGCAACATAAAAAGCAAAAAGAATAATTGCAGGACCATTAATTGTTTGAGAAACTGAAATATTCTCTAAATCGATTCCATCAAATAAGATTTCCATATCATCAAGAGAAGCAACACTAACACCACAAACACCTACTTCTCCAACGGACAATTCATGATCAGGATCGTAACCCATTAATGTGGGCATATCATATGCAACAGAAAGTCCGGTTTGTCCATTTTTTAATAAGTATTTATATCTCTGATTTGTTTCCTCTGGCGTACTAAAGCCTGAGAACTGTCTCATAGTCCAGACTTTCCCGCGATACATATTAGAATGGATTCCTCGAGTATAGGGAAATTGTCCAGGTTTTAAGGATTCTTTATTTCCAGTGTAGAATTCTTTAAGTACTTTACCACTTAGACTATTAAAATTCTTTTCGGATTCTCTATTTTTACTCATTTTTTAATAAAGCTCTCTATTTTTAATTTAATTGAATCATTATCAAGGGCAACTTTTTCTAAAAGTTCATTTCTTGTGCCATGATCCACAAAATTATTTGGCAGGCCTAAAGTTAGTATATCAATTTTAGAATTGCTTGAAGAAAAATAGGATAAAATGCTTTCGCAAAAACCACCATCTAAATTACCTTCTTCAATAGTAATAATTTTTCTAAATCTCTTTTCAGCATTTTTTAAATATTCCTCATCAAGAGGTTTAATAAATCTGCAATTAACAACTTCAATGTTAAATCCTAATGACTGTAACTGTTTTGCAACATCCACGCTTTTCCAAACCATTGAGCCCACAGCCAAGATTGCAAAATTTTCCCCATTTTTTAACACTTCCCATGAACCTTTAGGAATTAATTTTAAATCATCTGAATTATAATTAATTGCTTGATCTTTAGGGTAACGAATAGTAACTGGTCCTGAATTATAGGTTGTCGCTGAAAACAGAAGATTTTTTAATTCATCCCCATCCTTAGGAGATGTAACTATCATACCAGGTATACACTTTAAATAACTAATATCTAAGACACCATGATGGGTTGCTCCATCTTCACCAACAAGTCCTGATCGATCTAAACAGAAAATAACAGATAACTTTTGTAGTGCAATATCATGTATAATTTGATCAAAAGCTCTTTGTAAGAAAGTTGAATAAATTGCAACAATAGGAATCTTTCCACTAGCTGCTAATCCACCAGCAAATGTTACCGCATGAGCTTCAGCAATTCCAACGTCAAAAAATCTATTAGGATATTTTTCGGCAAATTCTACTAGGCCTGTTCCTTCTTTCATAGCAGCAGTAATCGCCACAATATCTTTATTGTCTTTTGCTAATCTTACGATCTCTTTTCCAAAAACATTTTGATAAATAACAGAAGA
>sequence14
AACTCCATTAGTATATTTTTTAGAATTAATCTTATCTAGATTTGATAGATTTTTTTCCAACCCATAAGCACAAAAAGAACAAACCATTCCAAACACTTCCACAACAGCTTCATTCGGCATGACTAATACCTCTTGATTGTTAATATCGACAGTAGATTGGGAATGAAGAAGATTAATAAAAACGATAGTAAAAAATAGCTTTTTCATATTTGTATCCTTGAAATGTTATGTAAATAATTTAAGAAAAAAAACTCATGTGGGGAAAAAAAACTCATGTGGGCGATGAGAGATTCGAACTCCCGACATCCTGCGTGTAAAGCAGGCGCTCTAACCAGCTGAGCTAATCGCCCCAAAAGTTGATTAAATTAAATTTCGATAATTGAAATTCCAACTTCTTTTAAATAGAAACTAATTTTTGAGATTTGGAATTGCCACCTTAATTACATCCATCACTTCTTTTGCAAAATGAAATGATAAGTCTTTTTTAATGTTTTCTGGAATTTCTTCAAGGTCTCTCTTATTTGCATATGGTAAAATAATTGTTCTAATCCCTGCACGATGGGCTGCAGTCACTTTTTCCTTTATACCACCCACAGGAAGAACGTTTCCTCTTAAAGTAATTTCACCAGTCATTGCTAACCTGCTTTGAACGGGTTTACCAGTAAGAAGAGATACCAATGAAGTAAACATACTGACACCAGCAGATGGACCATCCTTTGGTATAGCTCCAGCAGGACAGTGAACATGAACATCTAGTTTTTCAAAAAAATCTTCATCTAATCCAAGATTTTTGGTATGTGACTTAACGTAGGTGTAAGCAGCGCTCGCTGATTCTTTCATGACATCCCCAAGTTGACCAGTTAATGTGAGATTACCTTTACCGCGCATTTTACTAGATTCAATAAACAGAATATCTCCTCCCGAAGGTGTCCAGGCCATTCCAGTTACAACGCCAGATTTAGTTGTTCGTTCGGCAAGATCAGATAAAAATTTAGGTATTCCCAAATATTCATTAACCACAGCTTTTGTAATTGTGATGGTTTTAATTCTATTATTAACTAGCTCCACTGCTACTTTTCGAAGAATATTTGAAATTTCTCTTTCAAGACTTCTTACCCCAGATTCTCTAGTATATGAGCGAATAATTTCTTTAATCCCAGTATCTGAAAACTTCACCTGTTTGGAGGTTAGCCCATTTTCTTCAATTTGCTTCGGAATTAAGTGTTTTTTTGCAATATTAATTTTTTCTTCATCAATATATCCTCTAAATTCTAACATTTCCATTCGATCATATAAAGCGGCAGGTATATTGTCTGGATAATTGGCAGTTGCAATAAACATTACCTTACTCAAATCAAAATCGACCTCTAAATAATGATCGCTAAATGCATGATTTTGCTCAGGATCTAATACTTCAAGCATTGCTGAGGAAGGATCACCTCGAAAATCTGAACCAAGCTTATCGATTTCATCTAACATGAATACAGGATTATTGGTTTGAGCTTTTTTCAAAGATTGGATAATTCTTCCAGGTAAAGCCCCAATATAAGTTCTTCTATGTCCTCTAATTTCTGCTTCATCTCTTACGCCACCTAATGAAATTCGAACAAACTCTCTTCCCATGGATTTTGCAATAGACTTACCTAAAGAGGTTTTACCCACCCCAGGAGGTCCTGTAAAACAAATAATCGGACCTCTAACAGTATCATCTTTTGTCACTTTCTTTTTTAAAGATCGTACTGCTAAGTACTCCAAAACTCTCTCTTTTACTTTTTGAAGACCATAATGATCTTCATTTAGTATTTTATCAGCTTTTTGAATATTCAAACTATCTTTGCTTGATTTATTCCAAGGCAATTCAACTAACCATTCCAAATAAGTTCTAGCAACAGAATATTCAGGAGATTGAGGGGAGATCCTGCTTAATCTTTCAAGTTCTTTTTCCGCAACCTCTAAAGCCTGCTTACTCATTTTTGCATCATCAATTTTCTTTTTTAAATCGTCTAATTCAACAGTTTGATTATCCTCTCCAAGTTCTTTTTGAATTGCTTTCATTTGTTCACGAAGATAGTATTCTCTTTGAGTTTTAGAAATCTCATCTTGAACTTCAGACTGAATTTCTTCCCCGAGCTTTATGCGTTGAATTTCTTTTTGTAATAAAGAAATCGCATTTTTAACTCTTTTTTTAATATCAAGCTCTTCAAGAATTTCTTGTTTTTCAGAATTTGAAACTGAAAGTAAAGAGGTAGCTCGATCAGCGAGACGAGATGGTCGATTAATATTGGACAACATTCCTGCATGTTCTTCATTAAGATTCGGAGAAATCTTGATTAACTCTGTAAAGGAATTTTTTAACTTTTTGGCTAACGCTTCAATTTCAAGATCTGGCGTGTTTAATGCTTCAGGAATTCGTTCAATATCAGCAAGAAAATAAGAATCATTACTTTCAAACTTCAAAATTTTAACACGATCAACCCCCTGAACAATTGCAGACTTACTATTGTCTGGCATATCGAAGGTTTTGAGAACTAGTGCTAATGTTCCATAAGAATACAAATCTTCTTCTTTCGGATCTTCGATTGATCCATCTTGTTGTGCAACAACAATTAAATATTTATTATCTTCAGGCAGGTCCTCAATTAACTTTAAAGATTTTTCTCGACCAACATAAATTGGAATAACCTGCTGCGGAAATAAAACCGTATTTTTTAGAGGCATTACGGGATATTGTTTTCTATCTGCTTCCATTTTTTTCCTTTTTTATCTTAATTAGAGCAAATAACATACCAATACTTAAAAAGTTCCTAAATATTTACATTCTATGTCATTCTGACATAAAAGTATGCTATTCAAGCCTAAAAGATTGAATAAAATTACTAAAATAATTTTCATTTTCTAGAATTTTTTCCTCTGAACCAGTGGCTTTTATAAAATATATACTGTTGGGAAACTCTATAACTCCACCTAAAAGACTATAATTATTTCTTATCTCATCAATGATGGTAGGATTATTTGGGTTTGGAAGATTGAAAATTCCATTAATTTTAATTGTTGAAATTTTTTTATCTTTCAGATTAATAACATTGGTTTCTAAAAAGTCAATGGATTGGAACTGTTTCTTCCATCGTTCAAAATTTTGAGTTGCATCACCACCAATATTTGAAAAAATAACTATACTGAAATCAGAATTATCAGCTAAGATGATTTCAAAAAGCCTAAACTGAGATTGCGATTCATTAAAAATCCACTCATCTGGAAGAATAAAAGATATATTTTTATAGGAAGTTCTGCCTTCAATATTTTTAGTACCGTGAATCGCGATATAAGATACCAGAAAACAACCAAAGAAAACTATGAAGATGATAAAATTTCTACGCATTATTATAAAATAGTTTAGCCTGCTCATCTGCATGATAAGAGCTTCGAACTAAAGGACCAGACTCAATAATTTTAAATCCAATTTCTTTACCATAATCTTTTAGCAATTCAAAATCTTTTAGTGATCGATATTTCTGAACAATAAGATGTTTTTTAGTTGGCTGCAAGTATTGCCCAATCGTAAAAATCTCTACACCAACAGATAATGCTTCATCCATTGTTTTTTTGACTTCATCGATTGTTTCTCCTAATCCTACCATGATTCCAGTTTTTACTGTGAGTCCAAACTCTTTTGCTAACTTGAGAACGCCTAATGTTCTTTTCCAGTTAGCTTGAGGACGAATTTGGCGACTAATTCTTTCAACGCACTCAATATTATGACTAAAAATATTGGGGAGGGCTTCAAAAACAATGTTAAGAGCCTTGGGTTCTCCTTTAAAATCTGGAGTTAAAACCTCAATGGTACATTGGGGGTTCATTTTACGAATTTGTGTTATTGTTTGTGCCCAAATACTAGCCCCATAATCTCCTTTCAAATCGTCTCTATCAACAGATGTGATTACGACATGTCTTAGAGACATTTTTTTAACTGCATGAGCAACCCTTAGAGGCTCTAAGGGATCGTTCCAGCTAGGTTTGCCAGTTTTGACAGAACAAAATCCACAAGAGCGAGTGCATATGTCACCAAGGATCATTAATGTAGCAGTTTTTCTTTGCCAACATTCATAAATATTTGGACATCTGGCTTCAACGCAAACTGTATTTAAATATTCTTTCTGAACAAGTTGTTTAACCTGTTTAAAATTTTCATCTATCCTGATTGATATTTTTGGTTTATGTTGATTAGAGGGTATCATATGTGCATTAACTTTTGAAAATTTTTTACTATACTATCTTTAATATCGTCAACAGCTATATCTTTTCCAAGCTCTTTGCTGATGGATGTTGTTACTAAATTATCTATTCCGCAAGCACTAATTTTATCAAAATAGTTTAAATCTGTTTTGACATTAAGTGCAAGGCCGTGAAAAGTTATCCCTTGTAAGATTCTAACTCCTATGCTTGCAATTTTTCTATCTTTAATCCAAACTCCAGGAAGTTTTTGCTGCGTTGAAGCGTCTATATTAAATGTTTTTAAACAACAGATGATAATTTCTTCCAAAAACTGAATATATTTTTTAGGGCCAATTTTAAATTGATTTAGATTAAAGATTGGGTAAACAACTAATTGACCGGGGCCATGATAAGTAATATCACCTCCTCTTTCCGTTTTTATTACTGAAATGTTGTTTATTTCAGATATTTGAATATTTGAATTTTTCCCAATAGTATAAACGTGCTCATGTTCAACTATAATTAGGAATTTCTTAGTTCTGTCCAATTTTACCTGATTGACATATAAACGTTGTAGATCTAAGGTATCATTAAAAGATAAAAGTCCATGATCTTTAATATCCCACATTAGCTTACTTCAATTGAAGTAGTGCTTCATGGATAGATTCTGAAATAGTTGGGTGTGGAAAAATTGCTTTAATTAAATCCTCTATTTTCAGTTGATTTGATAAAGCAATAGAAAATTGAGAAATAATTTCAGTCGCTGAGCTTCCAACAATATGAGCGCCGAGAATTTGATTTTGATTATCAACCAAAATTTTTATAAAACCTTCGGCTTCATTCATTGCAACTGCTTTTCCATTAGAATTCAAAAATACCTTACCAACCCTATAAAAGATATTTTGACTTTTTAAAAATTGTTCATTCTTACCAATGGAGGCAATCTCCGGTTTACAGTAAGTACAGGCAGGAATATAATTATATTCAATAGGAATCGCTTCTAGACCTGAAATATGTTTAGCTACATAACTTCCTTCAGCTGAAGCAACATGCGCTAGCCACGGAGGCCCAATCACATCCCCAACAGCATAAATATTTTCAACTGAAGTTTGACCATGTTCATTCACCCAAATATGTTGATTGGACGACAAACGAATATTGACCGATTCTAAGTTTAAATTTTTGATATTACCCTCAACTCCAATGGCGACAAGAGTACATTCTGTATTTGTATTTGAAATATTTTCATTAGTGAAAATGTTGATTCCTTTTTTTTGAAAGATTTTTTTTACCCAAGCAGAAACTTCAAAGTCTTCGTTTGGCAAAATATTCTCCTGCGCTTCAATTAAATCAACTTTAGAGCCTAAAGCATTAAAAAAGTAGGCGAATTCTACTCCGATTGCCCCTGCTCCAATAATTGTAATACTTTTAGGTAGTGATGGAAGTTCAAATATATCCTTAGCTGATAAAGCACCCTGAAAGTAGTCTAATTTTTTTGGGGATGATCCTGTAGCAATAATGATATAATCTCCTGAAATTAAATCATTATTATTAATTGAAATCGTATTCCTATCTACAAAACTTGCAGTACCTGAAATAAAATCAATTTGATATTTTTTAACCAAATAATTTAACCCTTTAGATAAACGAACTTTTGCATTCTGGTTGTTAGCTTGTATTGCTGAAAAATCAAAATTAATGTTTTCTGCAGACATACCAAATTGGTCTAAATTATTTAATAACTCATAAAGCTCTGCATGTTTCAACAACGATTTTGTTGGAATACATCCCCAATTTAAACAGACCCCTCCGATAGGTTGTTTATCAATTATTGCAACTTTTTTACCCATTTCAGATAGTTCGAAGGCCGCGGTATATCCACCGGGCCCCCCTCCAATAATTATGATGTCATATTGATTCATTTTAAATATTTGATTGTTCAACTAATTTTAAAAATTCATTTCTAGTAGAATCATAATCTTTAAAAATTCCGAGCATTGAACTACTTGATGCAATACTATTTTGTTTCTCAACTCCTCGCATAAGCATACAAAAGTGTTTGGCTTCCATAATAACGCCAACCCCTTTAGGATTTAATATATCTTGAATCGTTTTTGCAATTTGGTTGGTCAGTCTTTCTTGAACTTGAAGTCGACGTGCAAATAAATCTACCACTCTTGCTAGCTTGGACAGGCCGATAATTTTTCCATCTGGCACATATCCAATATGAGCTTTTCCATAAAAAGGAATCATATGGTGTTCGCATAAGCTATAAAATTCAATGTTCTTAACAATAATCATATCACTGGAATTACTTTCAAATAGTGCATCATTGACAATGTCATCAATCTTTTCTTCATATCCTTTGGTTAAAAAAGACCATGCTTTAGCAACTCGTAATGGTGTCTTTAATAATCCTTCTCTTGAGGGATCTTCTCCAATTAGCTCTAATAATTGCGCAGTATTATTTTGTATCTTCTTTTCTTTATCACTCACTATATTTCCTCCAAATATGATGCAGGTTGAATTTTATCTTTTAAGACCCACAAACAAAAATAAATTATTGGGGTATCGATTAAAGCCACCAATGCTTTAAACAGCCATCCCATAAAAAGTAAATCAGTAAACCTATCCCAGCTAATTGCACCCGCAAAACATAGTATTAACAATACTAATGATGTATCCACTAATTGAGATACAATAGTAGATGCATTGTTTCGAATCCACAAATATTTCCCCCTTGTAATTCTTTTCCAAAAATGGAAAAGTCGTACGTCAATAAATTGAGCAACTAAATAAGCTACCATTGATGCTAAAAATGCAGGGGCAGACAACCCAAAAACTTTATTAAAAGTTGCGCTATCTACAGGAGACCAAGAGGCGGCAGTTGAATTCATTGCAACAACAATTAATATTGTTGTAAAAACACTGGCAAAAAAGCCAGAAATAACAACTTGATTAGCTCGTTTACGCCCAAAAAGCTCTGAAATCAAATCAGTAATTAAAAATGTCACGGGATAAGCAATAATCCCAACTGATAATTCAAAATTTAAACCTAAAAAATTCCATGTAAAAAATTTCTGAAAAATCAAATTACATGCTACAAGAGAGGCAATAAAAATTCCTGCAAAAACTAAATAAAGTTTCTCTTGAAATTCGCTCATTGAACACCTCCATAATAGTCAGTATAAATTGTTGGAGTTTCCTGTAAACGGATTCGATAAAGAATACATCCCTTCAATCGATTTTCAATAACATTCCAGATAAACTCCACCAGATTCTCTGAAGAGGGTTGTTTGTCTTTAAACCAGTCAACATCTTTTTCAATTTGTCGATGGTCAAGCTTTTGAATGACCTCTTCATTAACAACTTTCTTTAAATGCCCTAAATCAACCAAAAATCCAGTGCTAGGGTCGATTTCACCAGTCACAGTAACATATAATGTATAATTATGTCCATGGACAAACATATCCTCTCCAAAAACATCATAATTTTTTTCTTTAGTCCATTCATCATGACCATATTGGTGCGCAGCACAAAAATAAAATATTTTTGTTAGGTAAGTTTTGTTATTTTGTTTCATAGAAAGATAATTTATTTAAATAAAGACCTTCTTCCAACTACTGAAGTGATTGGACATTTTTCGGGATTAAAATTTTTTGCTGGACAATATTCCCTTCCATAATAAACCATTTGTAGATGAAGTTTATTCCATAGCCTCATAGGAAATAAACGCTTAGCATCTTTTTCAGTTTGAGTAACATTTTTACCATTCGATAAACCCCAACGATACATTAAACGATGTACATGAGTATCCACAGCAAAGGCAGGTAAATTAAACTTTTGAGATAAAACAACTGATGCTGTTTTATGACCAACTCCAGGCAATGATTCTAAATCTTGAAAATTTTTTGGGATCAGTGAATTATATTTATTGATCAAAATTTCTGATAGTTCAAGAATCGCTTTTGCTTTAGCAGGACCCAGTCCACAAGGTTTAATAATAGAATAAACTTTTTCGTACGATAAAAGAGTCATTTTTTTCGGGTTGTTTGCTAAAGAAAAAAGGTGGGGAGTAACTTTATTAACAGAATTATCAGTTGAATTTGCTGATAAAAGAACTGCGATCAAAAATGTGTAATTATTTTCATGATTTAAAGGTGGGGAAACTTTCGGATAAATTTCGTCAAGCTTTTGAATTATAAAATCGATTTTATCTTTTTTAAGCATTAAATATTAAAACTTATTTAATGCCTCGTAAGTTAAAGATTTTGGTCTAGTTAAAGGTAGACCCATTGCTCGGGCCAGCACAATTTGAGAACAAATACCTAATGCCCTAGACATACTAAATAGAACAGTATAAAACTGAAATTCTTTAATTCCATAATAATGCAATAGAGAGCCAGAAGCTGCATCAACATTAGGCCAAGGATTCTTAGCTTTACCATGCTCTTTGAGAACATCTGGTACAATTTTAAATAACCTTGATACAGTTTCAAAAACCTCTGAATCTTTAATATGTGATTCTCCAAAATTCATGAAAGCAGTAAATCTTGGGTCAGGGCATCTCAATACTGCATGTCCATAACCAGGAATTACTTTGCCAGAATTAAGTCTATCCCAACAAAAGGCTCTTAGTTTTTCTTCAGAAGGAACCCCCTTAAACTCTTCTACGATATCTAAAACAAACTTAAGATTATTCTGATTGGCTAATCCATGAAGGGGTCCAGCCAATCCGTTAAGACCAGCAGAAAGTGAATAATATAAATCAGACAAAGCAGAGTTAACTGTCAATGCGCTAAAAGTACTAACATTACCTCCTTCGTGGTCGCAGTGCAGCATAAGATATAGCTGCATCATTTTTAACATGTCTGGAGAATAATCCATACCTGTCATTTGTAAGAAACTTTCCGACCAATCGAGGGATTCAGAATTTTTGATAATATTACCTTTTTCAAATCGAAGCCTATATACTGCTGCAGCTATTGCAGGAATTTTAGCAATTATATTGAGTGCATCTTCTAAAGTAGTTTCCCAATAGTCCCCTTTTGAGATAACTAAATCATAAGCTTTAGCAAACTGACTTTCTCGTTGCATAGATAAGATAGCTGTGTTAAACATAGCCATTGGATGGGAATCCTTGGGCATATTTTGAAGAACATTCCATACATAATCCGGAACGGTACTACGTTCTTTTAAATCATGCTGAATATTTGTTAATGAATCTGAATCTGCAAAATCACCTATTAATAAAAAATATAAAATTTCCTCAGGAATTAATTCTACAAGCTCCAAAATATGTTTACCTCGAATGTGAAGACCTTTATCTGCAGAAACAGATGAGGTATCGCAAATCATTCCTTTAACTCCGCGCATTCCTTCGTAGGCAGCGCTAATTGTAACCTCTGAGATTACTTTGCTACCTTTTTCATCTAACAATTGACGATAATTATATCTCCAATCTGGAATTTTTTTTGATAACTGTTCTTTAATTTTACTCATTTTAGACCTTAATTTAATTTTGAAATTGCAAATTATATAATTCTTTATATGTACTATTTTTTTCTATTAATTCTTCATGAGAACCTTGACCAATTATTTTACCCTTGTCTAATACTATAATTTTATTAGCATTTTTAATAGTCGATAATCGATGTGCTATAACAATAACGGTTCTATTTTTTATTAATTTCTCTATCGCTTCTTGAACATTTTTTTCAGATTCCGTATCAAGAGATGAAGTCGCTTCATCCAGAATGAGTATTGGTGGGTTTTTGACTAATGCACGAGCAATGGCGATTCGTTGTCTTTGTCCACCAGAAAGCGAAACTCCATTCTCGCCGATATAAGTGCTATATCCTTCTGGCATTTTTAATATAAAATCATGCGCATTAGCAGCTTTGGCTGCATCTTCAATAATGCTCTGATCAATATCCAACCCATAAGAAATATTTGCAGCAACTGTATCATTAAATAGAAAAGTATCCTGTGTTACTATACCCATCAATGAACGCAAGGAATGTAATTCGATATGTTTAATATTTTCTCCATCCAGCAAAATCTCTCCATCTGTAACATCATAAAAGCGAGGAATGAGATCCACTAAAGTTGATTTACCGCCACCACTGCTTCCAACAATAGCAACAATTTCCCCCTTGCTTGCTGAAAAACTAACATTTCGAATAACTTCGTCTTTTTCATAAGAAAATGATACATTTTTAAAATCAATTTTCTGGCTGAAAGCTTTTTTAATTATAGGATTATCAATATTATTGATATCTGATTTTATATCTAAAATGTTAAACACGCGATCTGCAGAGGCTAAGCCATTCTGAATTTCATTAACCACATTAGTTAAATTTTTAATTGGTGCCCACAAACTAAACAAAAGTAAAATAAATCTTATAAAATCTTCGGAAGAAATAGTTGGATTGGGAGATAAAACTTCATTAGCACCAATCCATAGTAAAATTGCGGCTACTCCGGCACCTAAGGATTCATTTATAGGAGCGGAAATCAATCGTATTTTTTCTTTATTAATCATTAAAGAATAATATTTGCTTGTCTCTCTATGAAATTTGGATATTTCATAATTTTTCATTACGAATGCTTTCACAATGCGCATTGAACGTAAAGTCTCAGAAACAATCGCTGAAATTCCAGCTAATTGATTTTGAGATCTTCTGGACCTTCTTCGGATGCTTTGGGAAATAAAGTATATTACGGTTCCACTCACAGGAACAATCACTAACGCCAATAAAGCAATTCTGGAATCAATGATGAATAATAAGGATAAAATGGTCAAAATATTTAATGGCTCTACAAACATTTTTTGAAAGGTAGAGCCAAAAGAACTTTTCATATTTTCAATATCAGCTATTAATACAGCTCCCAATTCTCCAGACTTATTCTTATTGAAATAGGATAGAGAAAGATAATGAAAATGTCCATACAATCTGTTTCTTAAATCACGAAGTAATCGATACTGCGCAATAGAAAGTGAAATATTTTTGATATATAACGCAATATTTTTTAATCCAAAAACAACAACTAGAGCAATGGATACTGACCAAATTGTTTCAATAGCAGTACCTTTTAGAAGAAATCGATTAGATAGCAATTTTAAGTGGTCATTTATTGACAAAGAGTCTGAAGAAAGCAATAAGGTATTTTCTTTAATCATTTGGTCAAAATCGATCAAAATATTGTTGATCATTGTTGCAGTGATCCAAATAGAAGCTGAGTTAAAGACAACAAAAAATAAGGCTGCTATTGTTGAAATTAACAACATAGGCCAATATACTAAAATCAGACTAAGTATACGTCTTAATGTGCTTGGTTGATTCATGGTGAATAGTACATCTTTTGATGAATAATATCAGCCTCTATAAATTTATCGCCGGATTCTTTAAATCCTAACTTTCTATAAAATTCAATAACATTTTCTTGAGAATGTAAATATATCATTTTCTCATTAGAAATATCAGATAAAATCACTTGGAACATTTTCGATCCAATAGACATCTTTCTAAAATCTTTTAAAACAGCAAATCTTTCTAATTTAATTCCTTGGGTGGTTCTACGCCACCTAGAAGTCCCGACAGGTAAATTATCTACAAAGGCAATAAAATGGATTGATTTATCCTCAAATTCAATTTCAATATTCTCAGGTACAGATTGTTCCTCAATAAAAACTTTTCTTCGAATTTCTAGTGAGAGATTATAATCTTCTTTTGTTTTTGCTTGTCGAATCGTTATGTTCACTTATTCACTAAATATTATAGAATGTTAAAGCAAAGTCCAATGGTTATAAAAATATTTTTTTTTCTTTCCTTTCTTTTTAGTCAAGAACAATTTTCAGAATCTAGACTAGAGACTCTTAAAAATGGAATACACCAACTAGTTTCGAACGAAAATTCACGTGCCATATTATTGGTTCATGGGTATTATCCCCCAGGATGGAAAACGATTCATCATGAACTTGTTGAACCGCTGAATTATTTATCTCAAAATAATATTCGAACTTTTTTATTCAAATATGATTGGACTCGTTGTCCTGATGAGATTGGAAAGGAGTTATCAAAAAATATAGAAGCTCTATTACAACAATTCCCAAAGATTGAAAAATGGGAGATTGTTGGTCATAGTATGGGTGGAACTTCTGTGTTAGTTGCCAATCAAAATTTCAGGCCAGTAAATAAAGATATTACTTTTCATACTGTTGCAACTGCAGTAAATATTGTGGAAAACAAAATCCCTATTTGGATTAGATTTATCAGAAAATTTCAAGGGTTTGAACGATGTGACTACAATATAAATTCACTTAATTATGAAATTGAAAATGGATTTCCTAGTGAATTGATTGAGTGGAGAAATTTGCAAGACTATGACTCGCAATATAAACTTTATCCATTTGATGTTTATGATAAAAAAATAAAAAATTCGGTAGTTTACATTTTCCCAGATAGCATCAATGGAGAACGTGTGGGTCATACTAAAAGTTTATATTTTTCTGTTTTAGAAATTGTTAGAAAGTTCAATTGAAACTGGGCAATGATCTGACCCCATCACATCCTCATGAATATTGGCATCCTTAATATGAGAAACCATTGATTCATTCACAAAAAAATAGTCAATTCTCCATCCAATATTTCTTTGTCTAGCTCCAAAACGATATGTCCACCAAGAATACCTTTCTGGCTCAGAATGAAAAAGTCTAAAAGTATCTATAAAACCTGCAGCAACAAAATCATCAAGCTGTGCTCTTTCTTGTGGTAGAAATCCAGAATAATTCTGATTAGCTTTTGGATTGGCCAAGTCTATTTCTTTATGAGCTGTATTCCAATCTCCTGCAATAATTACATTATTGCCTGATTCAACCTGTTCTTTGACAATAGACAGAAGATCATCATAAAAATCCATTTTATATTTTAGACGAATGTCATCTTTTTGTCCATTAGGAAAATAGATGTTATAAAGTAAAAAATTTTCAAATTCAGTAATCAAAACTCTCCCTTCTCTATCATATTTTTCAATGCCCAAACCTTCTTGAACGTACAGAGGTTTTTCTTTTGTAAAAGTAGCCACTCCAGAATACCCCTTTCTTTCACCAGAGTGCCAAAAGGAATGATATCCATGAATACTTTGTAAATCGTCTGAAAGTTGATCAAAATGAGCTTTTGTTTCTTGGATACAAAGAATATCCGGTGATATGTGATCCAGCCAATCAAAAAAACCTTTCTGACTAATAGCCCTTACACCATTTACATTCCATGAAAAAAGTCGCATTTTATTTGTTTTTCTTTCTTTGTTTTAAATAAATTCTCGCTATGGATTTTAAAGAAGAATTTAAGAAAATAATTGACGAAAATAATATTGTACTTTTTATGAAAGGTACAAAAGATATGCCTGTTTGTGGCTTTTCTAAGACAGTAGTCAATCTATTAAATCATTACGGTGTTGATTTTAAGGATGTGAATATTCTAGAACATGAAGATATGAGACCATCTCTTTCTGCTCTTTCTGGATGGCCAACATTTCCTCAGCTTTTCGTTAAAGGTACACTATTAGGCGGATGCGATATTGCTGTAGAAATGCACAATAATGGTCAGTTGCTTGATGCTTTAGATGTTAATGATTGATTTAATAAGTCTGTTGGAAAAGAAAAATCTTTAGTATATATTTTGCAGTTAATTTGGCCGGTTCGTCTAGTGGTTAGGACTCAGGGTTTTCATCTCTGCAACAGGGGTTCGATCCCCCTACCGGCTGCTTTCCCTTCCTAAAAATATAAAAAGCATATTGATTTTATATAAAAAAACCGACTAGTCGGTTTTTTTATTGTTTTTAGATTATTCTGTTTTTAATTTTATAAGTCAACAAGTTGCATGCGGGATCATTTCCTTGATTAGTTAATGTTAGTGTGACTTAAAAATATCTCTCTTATTCTTTACACTAAACTTTATCCCGCAGCAACAAAAGTTGCTACGATTTAGTCAAAAAGAAATCCAAAAGATATTGATAAATGTGTATTGCCGTATTTGTTAATAATCATTGGCTCAATAAAAAATGGAGTGGATGTATTTTCATTCCACTTTTTTTGATCAAAAACAATAGGCATCGAAAGTTCAAGATGATAATAAGAATTTTTGAAAGAAGTATTATCGTTCGTTATCGGATCAAGTACATAGATATTTTTTTCATTTAATCTATTTAAAGTGATTCTGGGAATAATACGGATATTCTCGTCAATGTATTCTTTAAATACACTTAATCTTATACCAAAAGTTTTACCAAAGTAATCTTGGCCTAAATCGTTTAGCGCCTGGTTTTCATACGTAGAATTTTTAAAATAAGCCCCAATAGATAAATCCAAAGGAAGAGGGTTTTTTTCACTTCCAACCCAATAATAAGTGGCTCCAAAAATAAAATCTTTTTCTAAAAGTTTTTCATTTTCACTACGAAATGCTTTTGAAAAATTAAAAGTTTCACCATCTAAGAAAGTATATTCATTTCTTTTATCAAAATTTGAGCTACCAATTGAAAGATCAAATCCAATATTTTGATTATAGAAGTATCCTAGATTGATACTATTTTTATAGGAATTACGAATAAACTTTTCTTCCCCAAAGAAATCAACATGTCGATCATGACTAAAAGAAATCATTCCTGCATTAGTTTCAGGTAAAATATGCGTTTGTGAAAATAAGGTGGAAAAAAGTAGAATTATAAGATGTTTGTTAGATTTCATTTTTTAATTTTCTTTAAGTTATAATCTAATCAATAATTTTTATTTTTTTCAATTAAGTCTTTCAATCGTTGTTTGATGTCTGGATAAGCTCCAACAAGAATTTCTTTGACTACCCCTCGTTGATCTACAATGAAGTGGGTAGGAGCAACAGGGGTGAATTGAAACATAAATTCTCTTGAAATAGAACCAATTTCATAATCAAAAGCAGTAGATAATAATAAGTTTTGGACATCTTCAACTGTATCAAACGTTAAAGCTAAAAAATTGATAGGCTGATCTTCATATTCTTTAACCAACTGATTAAGATCTGGCATCTCTTCAATGCAAGGGCCACAATTAATATACCAAAAGTTCAAGACCATTAGATTGTTTTTAAAACTATTTAATTCCTTAGTAGATCCGTCAATTAATAGAATTTCTCCATTTGGAATCTCTTTGTTAAGCCAATCATCAGCGACTCTTTTTTGTATCAAAGCCCCCCTACCTTGGGTTTTTAAAATCGTTGCTTCTTCAATCAGATTATCAATGATGCTATCATCAATGTAACCACGTAAATCCTCATATTTTTCATAAAGAATATATTCAGTATTGCCAGTTTCTTTATTAGTGGTTCTTAAAGTTTGAACAGTAATAGCATTTACTAAACTATCCCGCTGAGATTGATTTAAAATATTTCCTTTTGAATCTCTAAAAACAACATTATTCTGTGACTTTTGATAAGACTGGACATTTTTATTTGGATTTGACTGAATGACATCTTCACTTTTTGAATTATTTGATGGTGAACAGCCTATAAGAGAGCCGACCAGAATAGATAAAAATAATAGTTTTTTCATCATTTTTTTGAAATCTTTATTACAAACAAAAAAAAGATAATAACGCAGATTATACAAAACCATACAAAAATTGATTCAAAGTTGTCAACAATCCATTGAGCAGTATTTGACAAACCTTCTTTTTTTTCAATTATCATTTTTGTATTTTCTCGCGTGGGTACAAATTTATTAAAAATGAATTATTCAATAATCATCTTTTTTGCTTTATTAATTTTAGTTTTACTTTCTGGTTTTTCAATGCAAAAGATAATTAAAAATAATGACAACCAAAAAGCTTCATCAAATTTTTACAATTTGCAAGCAACTTCACTTGATGGAGAACTTATTCCCTTCAACTCTTTTAAAGGGAAAAAGGTGTTGATTGTCAATGTAGCTTCTCGATGTGGATACACTTATCAATATGAAGGTTTACAAAAACTATACGAGCTGTATGGAGATAAACTAGTTATCATTGGTTTTCCTGCAAATGACTTTTTATTTCAAGAAAGTGGTAGCAATTCAGAAATTGCAGAATTTTGTGAAACTAATTATGGTGTCACCTTCCCAATGTCAGAAAAAATTACGACAAAAGGCAGAAAACAAAGTCCAGTTTATCAGTGGCTTACAAATTCTAAATCAAATGGCTGGAATAACCAAAAACCTACATGGAACTTTTGCAAATATTTGATAGATGAAGAAGGTAATTTGATTGCTTTCTTTGATTCAAAAATTAAGCCAATGTCTGAAGAGATTACTAAACTTCTCTAAGTCAATTAAGCGGTATTCATTAAAATTAGGCTTACCGCCATCACAATCATTCCAACAGAAACACCAATAATCGGATCGCTTGGCTTTCCATATTCTCTGGAGACGGGCAGTTGTTCGTTCAAAGCAACGTACACCATGATACCAGCACAAAAAGCGAATGTAATGCCAAAAACTGCTTCATTGATAAAACTTCTGAAAATTAAGTATCCCATCAATGCGCCTATCGGCTCTGCAATCCCAGATAATAGAGATATCCAAAACGCTTTCTTTTTGCTTTTAGTTGCAAAATAAATCGGTACTGCAACTGCGATTCCTTCAGGGATATTGTGAATTGCAATTGCAATCGCAAGTGTTACCCCAATTGCAGGATCATAAAGAGCAGCTGTAAAAGTGGCGAATCCTTCAGGGAAATTATGAATAGCAAGTGCAAGTGCAGAAAAGATTCCAGTTCTTAATAAATGTCCCTGTTTTTTATTTTTTGTGGAGCTTGAAACAAAATCTCCAATTGATCGATTATCAAAAAGCTGGTCAATAAATAACATAATTAAGATTGCCATAATAAAAGCTGTAACTGACACCAAAGCACCAAATCGAAAACCGAAAATTTCATTCAAAGAATTAAATGATAATTGCAATAGCTCTACAAAAGAGACATAAATCATAACCCCGGCAGAAAATCCAAGTGAAAGAGAAAGAAAGCGAGTGTTGTCTAATTTAGAAAAAATTCCCATTAAGCTACCAATACCAGTACTTAAACCAGCCAAAGTAGCTAACACAAATCCTATTATTACATTATTTATATCCATTAATTTGCAAACCTTTTAAATTAGTTAAAGGAAAAATAATGTTCAATTTTATTAAAATAGTGGTTTCAGCTCTTATTATTTTTCTTGCTTCCGAAATAGCAAAGAAAAATACATTACTAGGAGCGATTATAATCTCCCTACCTATGGCATCGTTATTATCAATAACATGGCTCTATATTGAAACCAAAGATATTGATAGAATAGTATCCTTTTCACAAAATATCTTTTTAATGATTTTTCCCTCTCTTTCTTTTTTTATCATTTTCCCTTGGTTACTAAAAAAAGATTTAGGTTTTGGATTGAGCATTTTCCTTTCATTAGCCATTATGGTTGTCTTATATTTCAGTTTAAATCTTTTGTATAAAAAAATTGGTATCTCTATCTAAAATGAAAACTATCATTGCTATTTTCCTGTTGATTTCATTCATTTTCTCTCAAAAAAATGATGAGATGAAAACAGTGGAATATGTTGACATCAATCAATTTATGGGAAAATGGTTTGTGATTTCAATTGTTCCAAATCGCATTGAAAGCGGCGCGAAGAATGCTTCAGATACATATAAATTACTTCAAGATGGTTCAATTGATATCACCTATGAAGCTGAAAAAGACGGTTCTAAAAAAATGATAAAACAAAAAGGAACAATTGTCGATAAAAAATCCAATGCTGAATGGAAAATTCAAATGACTAAACCCTATATTCCTTTGATGAAATTTCCCTTTAAAATTATCCTTCTAGATGATTCTTATAAGTATATGGTTGTAGGTTACCCAAAAAATAAAATGGGGTGGATCATGTCACGAGAAAAAAAAATGGATTTAAATGTTTATGAGAATATTCTTGAAGATTTAAAATCTTTTGGCTATTCACCAGAACAGTTTGTTCTGATTGAACATGACTAATGTGTATGGTCGGCGCCTGACAAACTCATAAATAAATACAAGATTCCAATAACAATAATAATCACTGCGGCTATCAGATTTGTATTAAACTTAGAATTGACCCGATTTAATTGATTAGAAAATCTATCTTTAAAAATTATAAACAATGCCATGATACTTGTTAAAGTCAAAGCAATTCCAAGCACATATATAAAGATATAAGAATAGAGAGAAAAG
>sequence15
AAACATTTTAGTCCTTTTAGGCACCAACATTGTATGTTTATAATTAAGGCACCAGAGTTTGTTATGAGGCAGTGGTATAAGCATGTTGTCGGAATTGAGACAACTTCTACTCATCCAACAAAAGATCACGCATGGAATGAGATTAGTGGAAGATACGTCCCTTATGAAGATTTTTATGAACCAAGTGATTTTAGAAAACAATCCAATGATAATAAGCAGGCCAGCGAAGGATTGATTGATGATCAAAAAATGGCTAAAAGATTGTGGCAAGAAGCTCAAAACACCTCAATTAGCAACTATGAGAAGATGCTTGATCTTGGTATGGCGAAAGAGCAAGCTAGAAGCATATTGCCGCTTACAGTATATACAAAGGTTTGGTGGACTGCTTCTTTTCAATCTATTATGAATTTTATTGAGCTAAGAGATGAAGCCACATCTCAGATAGAAATTCAAGAATATGCCAAAGCTTTGAAAGAAATAATGATGGAAACTTTTCCAGAGACTAGCAAGATTTGGTTTGAGGTGTATAATCAATGAAATATATAGGCCCAGATTTTTGCAATGTATTTGAAGGTCTTTCTGATGAGGAATTATTAATCCAAAAAACTGCGCACGAATTTGTTAAAAATGAATTTTTACCTTTAGTGGTTGATGCATATAACCAGGGAACCTTTCCTAAAAAACTAATACCTAGAATGGGTGAACTTGGATTTTTTGGCTCTACTCTTCCACAGAAATATGGAGGAAATGAAATATCTCAATTAGCCTATGGCTTAATTATGCAAGAACTAGAAAGAGGCGATTCCGGCCTTCGTTCTTTTTGTAGCGTCCAAAATGGTTTAGTAATCTACCCCATCTATCAATATGGATCACAAGAGCAAAAAGATAGATGGTTGTCATCATTGTGTTCTGGAGAGACTATTGGTTGTTTTGGCTTAACGGAATCTAATCATGGCTCTGATCCTGGCGGTATGAAAACTAAAGCCATAAAAGATGGTCAAGACTGGTTAATTAGTGGTTCCAAAATGTGGATCACAAATGGTTCAATTGCAGATATAGCAATAGTTTGGGCTAAAGATGAAGAAGGTATTGTGCGTGGTTTTATACTTGAAAAAGGCATGAAAGGATTTAGCGCTTCAGATATCCATGGAAAAATGAGTTTAAGAGCTTCAATTACATCTGAACTAGCTATGGACAATGTGCGAGTTCCTGACTCAAATCGTTTACCTTTTGTGGAGGGGCTCAAAGGCCCACTTTCTTGCTTAACCCAAGCAAGGTTTTCAATAGTGTGGGGAACCTTGGGTGCAGCAATAGACTGCTATGAGACTGCGTTGAAGTACAGTTCAGATAGAGTTCAATTTTCAAAACCAATTTCTGCTTTTCAATTAACACAACAAAAGTTAACTCAAATGATTCAAGAAATTACAAAAGCGCAATTATTGTCTCTTCAATTATCGCATTTAAAAGAAAATAATAAACTAGACTTTTCTCATATTTCTCTTGGAAAGTTAAATAATGTAGATATCGCACGTAAATGCGCAAAACTTTCGAGAGAAATTTTAGGCGCCAACGGTATTATGGAAGAATATTCAATCATGCGACACCTGATGAACTTAGAAACTGTTTCTACTTACGAAGGCACCCATGAAATTCATACTTTGATTATTGGAGAGAAAATTACTGGACAATCTGCCTTTTAATTGCTCTGTCAATTTGATTTATTAGCTCTAAAAGACAAGATTCTCTTTCAACCGCTTTGCCAAGTTCTAAACATAATGAAGTAGCCTCAAAGGGATAATTTTTTAATTCAACTGAAGAATTAATATTTATACCAACACTAAGTGTTTGGTAAGCTAAACGATTAAAGGTTTTTTTTGATAGTAATACCCCGGCGAGTTTCTTGTTGCCTATTAAAATATCATTTGGGGCTTTTATAATACTTTCAAGCCCATATAATTGGAGAAAATTTTTAATAGCATAACATGTTTCATCCACTAAGCTTTGGTTGAATTGATTTTTGTATCCTAAAATTATACTAAAGGTTAAATCTTTGTAGGGAGATGAATGCCAGGATTTAGAAAATGATCCCCTCCCTTTTTCTTGAATATCAGCTATAACAATCTTGCCCTGGTTTTCTTTTTGGTTGAAGTCTTCCAGGGCAATATCTATCGTAGTTTCAGTTCTCTCAAAGTATAAAAATGAATTTTTACCAGAGAGAATCCATTTGGTATCTAGTTCGAGCTTATCAAGATTTAGCTGCAAGGATCAAGATTCTTTCTCATCTTGAAAAAAGTTCCAGGTTGGAGAATTCCATTATTGCTGCTGATAAGTTCTGAATTATCCATATAAATTACTACCCAGGCAAGTTCATCGCCATATACTCTTTGAGCAAGATTCCAGGCAGTATCTCCAGGTTGAATTTCATATTGGAAATAATTTATATCACAATTTTTTGCTTCCGAAACCTTACGTTTGAGGGACAAGAAATTATAGGGGTATATTTTATCAGGATTATCACCAATAATTTCCTTATTCCAAGCATATATTTCTCTCCACATAGATGCATTTCCGTATTCATTTAATGCAATCCTTGTTAAAATATCACCCCTCTTAATCATGTATGGTTCGAAAACATTGACACCAACCATAGGAGACTCTGGTTCTTGAATCGTAAATTTTTCTACAGAAACTTCCTGCTTCTGTCCTTGTTTATTGTTTTGATTTTCTGAGCTTTTAGCTACATCGCTTATGCTTGGAGAGGTCCCTGCACAGCTAATAAGGATAAAAGCTAAAGTTGAAAACACAGATAATTTTGTATAGTTCATTTTGTTCCTTTTTAGTTAAAAATTATTGATAACAAATATATTAATATTATTCATTTAAATAAATATTGTTCCTAAAATTTTTTTGAGGAACCTATATTTCAAAAACCCCAAATGTATCTCTCAAAACATCTGATATTTCTCCAAGAGTACATAGATTTTCAACACATAATATTAATGAATCCATAAGATTTTTACTTGAAAGAGAGGTCTTCTTTAGTTGTTCTAATGACTGATTGACTTTTCCAAGATTTCTATTCTCTTTGAATAGTTTTAATTCTCTTATTCTATTAAGATTATCTTGGTGTGCTGAGTTAACTAATTCGTAATTCTCCAATTCAGTTTCAAAGGCATTAACTCCTACTACAATTCTTTCTTTATTTTCAATTTGATTCTGATACTTTATAGCAGACTCTTCAATTTCTTTTTGAATCATACCAGTTTCAATGCAATGAATTGTACCCCCTTTTTTGATAATTTCATTTATTTTTTTATTTGTTTCTTTCACAATCTTTTTGGTTAAATCCGAAACAAGTGAACTGTCTCCAACGGGATCAATATAGCTTGTGATTCCGGTTTCATAAGCAATAATTTGCTGAATTTTTAAAGCGGTGAGCGCATTCTCTTTTGATGGAAGACTAATGGCCTCATCCTTAGCATTTGTATGAATTGATTGAGCTCCGCCTAAAACTGCAGCTAAACATTGGAGGCTAGTACGGGTAATATTATTATCAATTTGCTGAGCTGTTAAGGTTGATCCCCCAGTTTGAACATGAAATCTGCATAATTGAGCCTCAATATCATCAATCCCAAATTTTTCTTTAATAATTTTTGCCCAAATAATTCTCGCTGCTCTAAATTTTGCTACTTCTTCAAAAAAATCTTTATGAGAATTAAAGAAAAAGGAAAACTTTTTTGCTAACTGTTTTAAATCAATTTTATTTTGTTTAGCAATTTCCATATAGGTTATTGCGTTGGAGAAAGTAAAGGCTAATTCTTGAATTGCGGTACTGCCTGCTTCACGAATATGATACCCAGAAATAGAAATAGGATTAAATTGGGGCACATTTTTTTGGCAGTACTCAAAAATATCAGAGGTAATTCTTAATGAATGATTTATTGGGTATATAAATGTTCCTCTGGCAATGTATTCTTTTAATATATCATTTTGAAGAGTTCCTCTTAGCTTAGCAAGGGATAAACTCTTTTTTTTGGCAACAGCAATATAAAAGGCTAACAATATTGCTGCAGTAGAATTAATCGTCATTGAAACAGAAATCTCTTCAAGATTGATGTTGTCAAAAATGGCTTCCATGTCTTCAATGGTTGAAATTGGGACTCCAGATTTTCCAACCTCCCCCAAGGCCATTTCATGATCAGAATCGTAACCCATCTGAGTTGGTAAATCAAAAGCAACTGAAAGTCCTGTTCCACCGTTTTGTATAATTTCAAGATAGCGGTTATTGGATTCTTCTGTTGATGAAAAACCAGAGTATTGTCTCATAGTCCACAGTTTATCTTGGTACATCCTTTTGTAGATACCTTTATCAAAGGGGTAGGTTCCAAATTTTTTCTTTTTCATAACTTCTAATTTTTTATATCCTAATTTAGTAATTTTATTATTTTAACGACCAAGTAATATGTATTTATCAAAAAGAGAATTAAAAACTTTTCATCAGATTTATAAAAATGTTTCATTTGAAAATATTATGCCTGTTTCAAGCAATAATTCTCTAATTCTTCTTCCGGATGATTCATCATCTTTGGAATTTGCCAATATATTCATGCAGCATAAAGAACAGTCTTCAATAGTATATTTTATTTCTAGAAACGAGTTAAAAAATTTTTATTCGGATGAAGTACAATCCTCAATGTGTTATTATAACTTTAAAGATTTGAATAGTTTGCAAATGCCGAGTGTTCCATTTTTAGAAAAAGTTTTTTCTCTGAGATTTAAAAATATTATTGATTTAAACTCAGAATTCAACCGATTTGTTCACCCAATTATTTTTTTTGCACCTCTATGGACAGTTAAATTGGGGTTTCATTCAGATATATCAAGTAATTATTACAATGTTGTTTTAGATTCAAAGAATAAGACAAATTATTTTGAAACATTTGAGTTAATTAAAAAGTTTATATTGATATGAAAAATTATTACAAAACAATTTTCACTAATAATTTAGTATTGTTTGATGAAGATATATTTAATTATGAAGAGATTCTGCCATGGGAATTAATTCATCAAATTCCAAATTTTTTTGAAAAGAAAGTTTCAGGTTACAATAATATAAAAAATGTTATTTTTGATGAAAGCTCAGGGCCAATTATAGTTGATCCTTCTGCAACTATTGAACCCTTTTCTGTTTTAAGAGGACCTTTATATGTTGGTAAATATTGTTTAGTCAAATCTCACTCTAATATTGCTAATTCAATTATTAATCGAAATTGTAAGATTTCGGGTGAAGTTCATTCATCAATATTTCAGCCATTTTCCAACAAAGCTCACGAGGGTTTTATAGGTCATTCTTTAATTGGAAGTTGGGTTAATTTGGGAGCAGGAACTACTACTAGCAATTTAAAGAACAATTATTCAAAAATATCTATCAAGTGGGGAGAAAGTCTTATTCAAACAGACTCTCAATTTTTAGGTTCTATTATTGGCGATTTTTGCAAAACCTCAATTGGTTGTAATTTAAATACTGGAACAATTATTGAATTAGGTTGCAATGTAGTGTCTCAATCTTTTCCGCCAAGACATATAAAGATGTTTTCAATGTTTTATAAAGATAAAACTCACAGGATTTCATTCGAAGATTTTTGCGATTCATTAGAAAGTATGATGGAAAGGAGAAGTTTAAAACTACTAGAAACTCAAAAAAATAACTTAAATGAATTATACAAAAATATTGACTCACATCTCAACTAATAATATCTTCACAAACGATTATGTCGAAGAATATTATATCCTCATTTGATGACGAAGTCATAACTCCCTGCTGCGACGAAGAAATAAGTACTTCTGAAATCACTGCAAAGTTAAGATGCCCCAGATGTAAGACTATTTTAAAAAAGAGAAAATTTCTACCTTTTTTAGAATATCTTATGGAAAATGGCCACGTAGAAAACCTCGATTTCTTTGATTTTGATTTGTATAGCCAAGATAAAGAGTCTTTAGATTCGGATGACGAAGAAATTGATTTAGATAAATATGAAGTAAAGAAAGATAGTTTAAATATTTATGAGGATGATTCAAAATATGGCTCTCAATTGTCAGAGTCTGACACCTCCATCGATGAGTCTCTTGCTACATCCTCCGATTGGACTAGATTTGCTACTGGCGATAGCGAAGAATAAGACGCTTTATTTTATTGATTACTTATATCTTAACAACTAAACTATAAATAGATGAAAATAGCTGTTTTAACAAAGGCAATTCCTAGTTATGAATCCTTAATTAGAATTGATACATCCTCTAAATGGATAGATGATTCACTGGTGAACTATGTCGTCAATGAGAGTGATGCCTATGCTCTTGAAGAAGCATTAAAAATAAAAGAATCATTAGCTGACGATTCAGAAGTTGTAGTAGTGTCAATGGGGTCTGAAGATAAGTGTTCTAAAATTATCAAGGATGGATTAGCAAAGGGGGCAGACAGAGCGATTTTGATCGATTCACAAGAAAAGATTTCTGATCCACTTTCTATTGCAACTCTTATAAGTGATTGTATAAAAGATGAACAGTTTGATTTGGTATTTTCAGGGTTGCAGTCTGATGATTTGGGTTCAGGACAAGTTGGAGTGCTCCTAGGTGAAAAATTAAAGATGTCTACTGCAACACTAGCCATTGAAACGCAAATTCAACCTTCTGCAATTCGGGTTAAGCGCGAGCTTGAGTCAGGATGGTTTCAATGGTTGACAATACCATTGCCAGCTAGTATTTCTATTCAATCTGGAATTAATAATCCTCGATATCCTTCATTAAAAGGCATTATGGGTGCAAGAAATAAAGAGGTTGCTAAGCACAATTCCAATCAATTTTCCAACAATCAACTACAATCTATGGTTGAGCTGTACATTCCATCCAATGAAAAGCAAGCTGAAAAAATAGAAGGCGATTCTAAATCAGTTGCTTCCAGAATTCTTGAAATTTTAAAGAATGATTTAAGGGTAATTCAATGATTTTAGTAGTCTTAGAAAATCAAAGAGGTAAGATTCATCCTTTTAGTGTTGAATCTGTTGTTGCTGGTCAAAAAATTGCTAAATCTCTGAACCAGCCTTTATCAATAGTTTGTGTTGGCGACAATATTGATAACATTCATGAAAGCGCTAAACAATTTGAATGCAACGAATTAATTTTAGCATCACACCCTTTACTAAAAACTTATTCTGCAGACGGTTTTTCTAAAATAATGATTGATTTAATTAAATCCTACAGTCCAAAGTATTGTATTTTTGGACATTCGTATATGGTTCGTGACTATGTTCCAAGAGTAAGCGCAAATTTATCAATACCATTTATATCTGATATAATATCTATTAATCTTTCTAGTCAAAATATTCAATTTTCTAAACAGGTTTTTAATGCGAAACTCTTAAGCAGAATCGAAAATGAATCGACCAACGGATGTCTTTTAAGTTTTCAATCAGCTGCTTTTTCTTCTGATGAATTATTACAGGGCGCTCCTAAAAAAGTGACCAATTTTGAGATCAATTTAAATGATAGCGATATAAGATCTACTACGGAAGAAGAGTTTCAAGAATCTTCTAGCGGAGTTGACTTATCAACTGCTGAACTGATTGTCTCTGTGGGTAGAGGAATTGATAATCAAGACAATATTCCAATAGCAGAAGATTTAGCAAAAGCATTGGGGGCTGAATTGGCATCCTCTAGACCTGTAGTGGATATGGGATGGTTGCCTCCTTTTCGACAAATTGGAAGTTCAGGACAAACAGTTTCTCCTAAGTTATACTTTGCTCTAGGTATTTCAGGTGCCATTCAACATGTTGTTGGAATGAAGGGTTCAAAAAATATTATTGCAATTAACAAAGATGAGGAAGCCCCAATTTTTGAAATTGCTGACTATGCAGTAATTGGAGATTTGTTAGAAATTGTACCCCTTTTAACTGAAGAGTTGAGGAAAAGATAGAAACAGAAAAAATCTAAATGTTCACTATTTTAGAAAAAATACTTTTAATCACTTTTCTCTCTTCGGCGATTTCTTTTTTCTTGTATCACCTCTATGTTCGTTTATCTATTGTTTTTAAGGGAAAAGGTTCATTTGCTTTTGATCATCTTTTATTAAGATTAAAAAGACTCTTTGACGAAGTTCTTCTTCATAAGAAGGTAATAAGTAAACAAAGAACAATTGTTGGATTTTTACATTTATTTGTTATGTATGGTTTTATTTTTTTTGGATTAATTACTCTTAATCATTTTTTAATACCATTTGACATCAAGCTATTTTCTCCATCTTTTAAATTGAATTATTTCTATTTTGTTGGTTTACCTTGGGCAATTTTGTGTTTAATTGGAATTTTAGGATTAGCTTATCGCCGATTTTTTATTAAACCAAAATTTCTTGGAGAAAAATCAAAAACTTCTGCTGTGGTTACTCTTTTTATTTTTTTATTAATGATTACTTATTTGTATGATGAATTCCATTTATGGAATAGTCTGTTGCAATATAAAGTAAATTGGTGGCTACATTCTTTCGTAATAGGAAGCTTTCTTTTTCTAATACCCAAATCAAAGCATATGCATTTGGTTTTATCTCCATTTAATATCTTTCTAAAGCCATTTGATAATCCTGACCATGCTCCTGTTCCCATTGATCTCGAAGCTTCTGAAGAAGAACTAGACAATTTACTTTTAGACTTATCACGATTGAGCAAAAATCAAGCATTAGATATTTTTACTTGCGTTGAATGTGGTAGATGTACAGAGGTATGCCCTGCAAATAGAGGAGGAGGTATTTTAAATCCCAAATACCATTTTATTCTAGATTTGAAAAACCCAATGCTTGAAAATCAAGATGTAAATGTCGTAGACAAAATTAATGTTGAAGCTGGCTGGGAATGCACTACCTGCCAAGCCTGTACTGAAGTTTGCCCTGTTGGTAATCAAGTTGAAAAAGCCGATGAAATTAGAAGTTTCCAAGTTTTGTCTACAGGAGACGTTCCGCAGGAATACCAAAAGTTATTAATGAATTTGCAAGAAACTGGAAATACAGAGGGTAAAAATAGTAGCGAAATCTTAAAGGAGTTGCCAGAATATACCGCAGAGAAAGAAATTGTATTATGGCTTGGCTGTTTTGCTAAACATGCTATGGATCCAAATTTCGTAAAATCAGTACGAAACTTTACAAAAATTTTAGATTCAGCTTCAATAAGCTACGGGGTATTAAGCAATGAACAGTGCTCGGGAGATCCTGCCAATAAACTCGGAGACAAATTAACTTACCAGTTATTAATGGACCAAAACGTTGAGGCATTAAAAGGGGTTAAGAAAGTTGTAAGTATGTGCCCACACTGTGTTGTTAATCTCCAAAAAGAGTATCGAAAATATCATGAAATCAATTACGAAGTAAAACATCACACTCAAATGATTGCGGAACTTTTAGAAGACAACAGAATTAATATCAATCCAGGATCTTTAGAAAAAGTGACATATCATGATCCCTGCAATTTATCGAGAACTTTAAATGAAACAGAGGCGCCTCGAAAATTACTTAAAGCATCTGCTCCAAATTATTTCGAATTAGAAGAACATGGGAAAGAAACCTTGTGTTGTGGAGCTGGAGGTGCTTTGTGGTGGAAGAAAGACACGGGTGAAGGAAGAACGCATCTATTGAGAGCAGAACAAGTTATTCAGTCCAAAACTGATACTGTTGTTACTGGTTGCAATTTTTGTTATGGAATGATGAATCAGGGAATTGGTCCTTTAACCCCCTCAGACCAAGAAAAAATCCAAGTTAAAGATATAGCAGATATTGTTGCTGAAAATTTATCGAATTAATTTTTTTTATATATTTCCACTGCCGAACAAGGTTCGCCAAAATAAATTTTTTTTGAGTGCAAAGCAAGTCTTGATGTAATGATCAAATATGCCCAAGTCGGAACTGGTACAGAGGTACACCCTTTAATGATAACTTTTTGATTTTTATATTGAGTCCAATCTATTGATTCAATTTTATTTCGAAAATTATCCTCTTTGAGCATCCCGTCAATCAAAAAATCTTCTAAATTGATAGTAATCATTTATAATAAAATATTAATTGATTTCTTGAGTTTTTCTACAAAAATGTCTGCTTCTTCTAAAGTATTATAAAAGTAAAAACTGGCTCTCGCGCAACCTGATATTTTTAGGGTATCCATTAAAGGTTTACAGCACATATGCCCAGAACGAATTGTAATACCTTCATAGTCTAAAAGATGTGCTAAATCTAAAGAATGAATATTCTGAATATTAAAGCTCACTATCGGAGTTCTTTCCTTGGGTTGGCCATAAATTTCAATTCCATTAATTTCACGGAGTTTATTAATAACGTATTCAGCAATTCCATGGTTCGATTCCCAATCAATTTCTTTTAAAAAATTGACCGCTGAAGACAATCCAATTACTTGAGCAGTCATCGGAGAGCCAGGTTCAAATTTATGAGGAATCTCTGTCCACTCTGATTCGTAAAGCCCTACATCATTAATCATTCCCCCGCCTGTTTGATATGGAGACATTTGATTTAATATTTCTTCTTTCGCATATAAAGCTCCAATCCCGGTAGGTCCAAGCATTTTATGACCAGAAAAAGCAAAAAAATCGCAATCTAAATCAGAAACATCAATTTTTAAATGTGGAGTACTTTGACATCCATCAACGCATACTAAAGTATTATACTGATGCGCTAAAGCACAGATTTCTTTGATAGGATTAATAGTTCCCAAGACGTTTGATGCGTGTGTAACAGAGAGAATTTTCACTCCCTTTTTTAATTCATTTTCGATTTCATTGAGATTTAGTTCACCATTTTTATCAAAAAAAATATATCTTAATATTGCACCCGTTTTTTTTGCGATAACTTGCCATGGAATAATATTAGAATGATGCTCCATATTGGTTAATAAGATTATATCATTTTTTTTAAGATTTTCGAAACCCCATGCATCAGCAACTAAATTAAGCGACTCAGTAGCATTTTTTGTAAAAATAATAGAATTTGGTTTCGCACCTATATATTGAGCTATATTATTTCTACTTTCTTCATATTTATTGGTAACAATCTCACCAAGTTCGAAAACGCTTCTGTGTACACTAGCTCTATATGTAGTGTAATGTTCATTGATAGAATCTAAGACAGAATTTGGTGTTAAGCTGGTGGCAGCATTGTCTAAATACACTAATTTTTTCCCTCTATTTTGAATATTTAATATTGGGAAATGTTTTCTGATTTCATCCATTAATAAAGACCTAATTGAAGTTTTGCTGCGTCACTCATCATTTCTTGATTCCATTGTGGTTCCCAGACTAGTTCTACATCAACATTTTTTGCACCACTAAGAGCTTCAAGTTTTTGTTTAACTTCTCCTGCGATAACTGGGCCCATTCCACACCCAGGTGCTGTGAGGGTCATTTTAATGTGAATATCTACCCCATCTTCTTTTGAATTAATTGAACAGTCATAAATCAAACCTAAATCAACAATGTTAACTGGAATTTCTGGATCATAGCAGGTGTGTAAAACATTCCAAATTTCGTCTTCAGAAGCAAAATTATTAGAGTCGATTTCAATTATTTCTTCACCAATTGCATCCGCATCTTTTCCTTTTACTTGGTACATGTTTCCTTCAACAATAATAGTAAAATTATCTCCTAATGATTGAACTATGATTCCTTGTTGATTTTGTTTCAGTAGGGTGAGGGTGCCATCTGGAACACTATAAACATTGATATCTCTACTGAAAGTGAAGTTTTTATTTTCCATCTGAGGTTTTCTCTAAAATTATGTTAATTGCACCAATAAATCCATTTTGTCTTTGGCTAGATATTGTTGGTCCAATATTTAACCATTCAAAAATTTGGACAGGGTTTTCAAAAGAATTAATAAAGCTCTTTATTTCTTTATTAGAGGCTCCATCAAATGCAACTTGAAGGATGCGCAATAGCCCTTTGACAACAGAACTTTCTGAATCAGCAACCATGTTGATTTTTTCTGGATTTTCAAGTTTTATCCAAGTTTGAGAGGTGCAGGCTTTAACTCGATTATCCATAGTTTTATAATTCTCGGGAATAATTTCTAATTTTTTACTTAAATCAATTATGTAGAGTAGTTTATCTTGACCTGTAAGAAGCGAAAAATTCTCTCGAATTTCCGCTAGATTGCTAACAATTTTATCCATTGATCCATTTTGATATGATAATGTTACAATCTGATTCTAACCCAGAATTACTAAAATCTTCAACAATTTCTTTGGCAAAAGCTTCAATTAAAATTTTTCTCGATTCTTCTTCTGATAAACCTCTAGATCTTAAGTAAAAAATGCTTGAATCATCTAAGGCTCCAGTTGTGGATCCATGTCCACATTTAACATCATCGGCAAAGATTTCTAGTTGGGGGTTCGAATGAGCTTTTGATTGTTCTGAAAGAAGCAAATTCTTATTTGATTGTTCTGAATCAGTTTTTTGAGCATTTTTTAATACGATTACTTTCCCATTAAAAACTGCGGTAGATTGGTTATCCAGAATATTATTAACTTTTTGTCTACTACTACAATTTGGAGCATTGTGGTTAACTAAAATATTGTTATCATAATGCTGAGTCCCTTTAACAAGATTGAGAATATTAACTTCTGCATCAGAACCTTCACCATCTAAGTCAATTTCAAAAAACTTCTTATCAAAGTTAGATGAGTGATTAACATTATCAATTGCAAGATTAGAATTTTTTTGCATTTTATAATTATAGAATGAAAGAGATTTATCTAAATTATTGTCATTTGTTACGAGGCTATGACTTAAGTTTGAGTTTTCGCTACAAAAAAAATTTGAAAGAGAAATTCCCAAGCAAGAAGAATTAAGGGATATTTTTTTTTCATTAATTTTTATTTCAGTATTGTCTCCAATAGAAAAAACATTTAAGGATGCAATCATATTATTTTCTATGGAGGTATCAAAAATGTAGACAATGTTTATTTCTAAAGGATTATTGCTAATAATTCTCCAATAATTAGCCTCTTGAACACCAGAAAGAGAAAGATGAAACATAGATTCTTTTATAAAGTTTTGTGATGATAAAATGGTTGATTCATCAACAGGGCTATCAATTTTCTCAAGAGAAATATTTTTCTTTAAAGAAAAATTTTCCCAAGATGTATCATCCAAAACTCCATTAATAAAATAAATGGTATTATTTTGGCGATTGATTTCTTGCGGAAAATGGATTTTATTTTTTTGAAAAGAATAATTTTGAAAAAACTTTGATGAGGTATATTTCCAATTTTCAAGATTAGTTTTGGGGTATCCCAAATCTTGAAAAATTTGACTTGAACTAGATTTGATTTTTTCCATTTTATTCTTCTAGCCAGGAATAACCTTTTTCTTCAATCTCTTTTACTAGCTCCATATCTCCTGTTTTGATAATCTTTCCATCTATCATAATATGAACAACATCAGGCTGGATATAATCTAGTAGACGTTGATAATGCGTAATAATCAAAACTGAATTTCCCTTATTTCTAAATTTATTGACTCCGCTAGCAACAATTCTTAGGGCTTCAACATCGAGACCAGAGTCTGTTTCATCAAGAACCGCTAGTTTAGGATTGAGTGTTAACAGTTGGAGAATTTCACTTTTCTTTTTTTCTCCTCCAGAAAACCCTTCGTTTACTGATCTTTTTAGAAAAGAATTATCTAGCTGAAGTTCGCCTAGTATTTCTTTTGAGTTTTTTAGGAATTCAACTGCATCTATGTCATCAAGGCCTTGATTCTTTCTATGTGCATTAACTGCTTGTTGTAAAAAATATGCCATACTAACTCCAGGGATAGAAACTGGGTATTGGAAGCAAAGAAATATCCCCTGAAGAGAGCGGTTTTCAATGCTCATTTCAGTAATATCAACATTATTGAGATGTATTGAACCGCTTGAAATTTCAAATGCTTCATTCCCTGCAATAACATTGGCAAGAGTACTTTTTCCTGAACCGTTTCTTCCCATAATGACATGAACTTCACCCTCAGGAATTTCTAGATTAATTCCTTTTAAAATTTCTTTGTCTTCAATGCCCGCTCTTATATTTTCTAATACTAACATATTACCCCACACTATTTTCTAAGGTTACTTCAATTAATTGTTTTGCCTCCACAGCAAATTCCATTGGTAGATGCTCAAAAACCTCTTTACAGAATCCATTAACAATCATTGAAACAGCATCGTCTAGATTTATCCCCCTTTGATTGCAATAGAATAATTGATCTTCTCCAATGCTAGAGGTGGTTGCTTCATGCTCCATTTTTGCTGTGGGATTTTGAACATCGATATAAGGAAAAGTATGTGCACCACATTTATTTCCAATTAAAATTGAATCACATTGAGAAAAGTTTCTGGCATTAGAGGCATTTTTAAGAATTTTTACGCCACCTCTGTAAGTATTTTGCCCTTCACCAGCAGAGATTCCTTTCGAAATGATTGTACTCTTTGTGTTCTTCCCCATATGAATCATTTTTGTTCCAGTGTCAGCTTGTTGTTTGTTTTTTGTCACAGCAACAGAATAGAATTCGCCAACACTATTGTTGCCTTTCATGATAACGCTAGGATACTTCCAGGTTATACTAGATCCGGTTTCAACTTGAGTCCAGGAAATGGTAGAATTATCTCCCTCACAAATTCCTCGTTTTGTGACAAAATTATAAATACCACCCCTTCCATTTTTGTCTCCTGAAAACCAATTTTGAATTGTAGAATATTTTATGGTAGCTCCCTCAAGTGCAACAAGCTCTACACAAGCCGCATGGAGTTGGTTTTCATCTCGCATCGGAGCCGTACAGCCTTCAAGATAGCTTACATAACTACCTTCATCGGCAATAATGAGAGTTCTCTCAAATTGTCCAGTATTGGAGGCATTGATTCTAAAATAAGTTGACAATTCTAAGGGGCATCTTACACCTTTGGGTATATAAACAAATGATCCATCGCTGAAAACTGCAGAATTAAGTGCGGCAAAATAATTATCTGTGTATGGGATGACCGAACCTAGATATTTTTTAACAATTTCTGGATGATTTTTCACTGCCTCAGAAAATGAACAAAAAATAACCCCATGTTTTGAAAGTTCTTTTTTAAATGTTGTTGCTACTGAAACACTATCAAAAACAGCGTCTACAGCGACACCCTCTAATCTT
>sequence16
AAAAAAATGATATTAGAAGCTACTGCTGGTTCTATTAGGTTATGCACTCCACCAGATGAGAATCCTCCGCCAACATAGCAGAAAAATGATTGCCAACAGAACTGATAGAGTAATCCAATTGAATCAACAAGAATTATCTTTTCTTCAATGCCTTGAATATCAATAATGGAACTTATTCTACAATATGAATGTCCTCTTGACTTAATGATTTGTTCATAGCTTGTCACTGTATCTTCATCCACTTCATGTGGAATGATTATAATCTTTTCAAATAATTTTTCATCAAGCATTGAAAAAACTTTCGGGAATAAAGTTGCATTATCACTTCTTTTAATACTTGCTAACAATAACGCTTTTCGATGATTTCTATCCTGGATAGATGATTGAAAATCAATAGAGCTAATTTTTGATAGAATTGAGTCATAGCGAGCATTACCTAGCATTTCAATTTTTTTACCAGGAAGAAATTTTTCTAGCTCATTTTGATCTTTAGTAGTTGCAGCAAAAATATGAGATAAACCTTTATATACGTTTTTGTAGATATACCTTTTAAATAAAGAGGAAGATTGCAAATCAAGTTTTGCAGACACTAAAAAAGTGGGGATTGACATTTTGTTTGCGACAAAGATAAAATTGGGCCAAACATCATACGTAGTGAAAATTAATTTTTTTGGAAGAACTGTCCTCAATGCCATAGAACCCATCCATAAAAAGTCAAAAGGTAGAAATATTTTACAATCAATATTATTATTTTTGACATTTTCATATCCTGAAGGCGAGTAAAAAGACACTACAATTTTTGAACCACTTTTGCCAATCTGATTGATAACTGGCTCTATCTGAAGATATTCCCCTAATGAAGACGCATGAAACCATAAAATATCACTTTCTGGAAATTGAGCTCTGAGTGCTTTAAGTTTTTTGATAGAATGAACTCTTCCTTTAATAGCTATTCTAAGCTTTTTACTTAATGGAGAAAGCAATAATGCTAATAAAACCACTACAAGGTTTATCACAGAATAAAAAATTCTAAAAATCATAACTGGCTCAATACTGTTTTTGCGATTAGTTGGGGTTCAAGATTTTCCATACAAAATTGCTTTGATTGATAACATTTCCTCTTTCCATTTTGAGAGCATGGACGACATGATAAATTATCCACCTGAAAATTAAATGAATTCGCATGATTTACTCCTGCACCAGTTTCTCTAGAAGTTGGACCTAAAATCATCCCAACCGGCGTTCCAAGTGCCTCTGAAATGTGAACTAAACCAGTATCACTTCCAATCGTAAATTGTGCAAGTTTTAACAAAGACATTGCTTCCAAAAGCGATGTTTTTCCTTTCAGATTTATTAAACTTTTTTTGGATTCAATTTCATCGCAAATCGTATCATTAGGTCCTCCCAAGATAACAAAATTGAATGATTTATTTTTATTTAGATTATCTATTAAGGTATTATATTTTTCTTTCGGCCACTGCTTTTGTTCCCAAGCAGCTCCAGGCACAAGAGCAATAAAAGGCTTATGAATATTATATTGATCTAAAATACTTTTAGCAGCATCTAGATCACTCTGCTCAAGATGCAAATTAGTCAGTGGAAATTCCATGATATTAGGCAATAAAGTGTGGTACATCTCAATATGGGAAAAACTGCTGGAAAAAAGGTTTTTCTTGAAATAAAAAAGAAGAAGTCGCTTCCATCTAGGTTTTTGAATTCTTTTAACATTCCTTAAAAATAACCCTATCAATCTTGATCGAAACACATTATGGATGTCAAAAACAGAATCATATTTTTTTGAACGAAGTTCTATAATCAAATTAATCAAACCTTTAAAACCTTTAGCTTTTTCATAACAAATCAATCGATTGATTTGTGGGTGCTTTGAAAGAATGGGAGCAAATTCTTTCTTAATCAGAAAATCAATTTTAGCATCTGGAAATTGGTTTTTAACGGAAGAAAGAAATGAAGTGCCTAAAACAATATCTCCAATTGAACTCATCCGTATAACCAGAATTCTTTTCATAATTAGTTGTTGAAAATTTTATTAGCAAGCATTGAAATAAAAATACTGATTTCATATAGCAAGCAAATTGGAATGGCAAGAATAAATAAACTGATTGGATCAGGTGGAGTAATAATTGCTGAGAGAATTACTGCAATCATAATGGCTTCTCTACGATATTTTCGAAGAAAATCAGGAGTCAAAAGACCAATAGATGAAAATAAAAAAGAGATAACAGGTAATTCAAAAACTAAACCAGAACCTAGGATCAGTGCCAGTACAAAACTAAAATAATAATTAATTGAAAAGTTATTTTGAATGTTGGCCGTAATCATCGATGAAAAAAAATCCAGCGAGAATGGTAAAATAATTTTATAGGCAAACACACCTCCAATGATAAAGCAGGCAAAAGCCGATAAAATAATGGGTAGAAGAATCTTTTGCTCTTTCTGGTATAATCCTGGAGAAATAAATTTCCACAATTGAATTGTAATGATGGGAATTGAAAAAATGATTCCACCAATAAAAGCTAAATTCCATTTTAAGACAAACATCCCTTGAATCGTTAAGACTTGCAAGGCGAGTTGTTGAGAAATATTTTTAGTAGGCGCTATTAATAACTCAACAAGGGTATCTGCAAAGTTGAAAGTTAAGATTGCAAATAAGAAAATTGAACCTAAGGATTTAAATATTCTCCATCTCAATTCTTCTAAATGATCAAAGATTGACATTTCTCCAGTCTTCATTTGACATCCTTAATTTTTTTAATCAAATCATATGGAGAGATGGTCTTATTATCTTTTGAGATTATTTCTTCAAATTTTTTGAGACGAGTATCAGTCCAAAATTCTTTCAATATCTCTTTTTCTACTAAACTTTTAATTCTACGTTCAAACCTTACCTTTTTTCTTGCGACTATGTTAGCATTATCAAATCGTGATTTGAAACTGGAAGCAATAACATTTGACAATTCATCGATTCCTTCTTCTTGTTTACAGCTTGTTTTAATAATTGGTATATCGGAAAAATTTGATTTGGTAGACGACATAATATTCGTAATGGATTTGACTAAAAGGTTTGCATCTTTTCGATCGGATTTATTCACCACAAATACATCAGCTAACTCTAGAATTCCAGCTTTTAGCAACTGAATTTCGTCCCCAGATTCAGGGACAAAAACAAATAAAGTCAAATCGGCAATTTCATAAACTCCGTATTCGGATTGACCTACTCCAACCGTTTCGATGAAAATAATATCTTTTCCACTAAAAGCTAAAATGTCACTAAAATCCTCAGCAAGCTCAGTCACTCCTCCTAACTCAGCTCTGGAACCCATGCTTCGAATGAAAACTTGATTATCTTCCATAGAATTAGTGATGCGTACTCTATCCCCTAAAAATGATCCTCCTGAAACCGGGCTAGATGGATCAACAGCTATTACTCCAATTGAGAGACCTTGGTTTCTCAAGAGAGGAATTAATTTATTCATCAAAGAACTTTTTCCTGCTCCTGGAGGACCCGTAATTCCAATTTTTAAAGCTGATTGAGACTTAGAAAAAATTGCTTTGGATACTTCTTCGCGAGAAAATTGATTTTTCTCAACGGCATTCATCAAATCTGAAATGGCTAAGAAATCATTTTTCTGAATTGCTTCAAGTAATCCGGTAAGCTGTTTACGTTTCATTTCACTACACATTATTGATTGAATGGGTTAAAATAATCATAATAGAAATATATTGACATCAATTTCTAACTAAGATAATTTGCGTAGCATTTTTTATGGATAGACACAAACAACAAATTAAACGCGATAGACAAGATTTAAAACGTCGAGCTGTCAATGCTCAAAATAAATCTAAAATGCGTACTCTTATCAAGAAAGTTATGAAAGACTCTGATTCTACATCTGTTCAGGAAACTTATACTGATGCAATCTCTTTTATTGATAAAATGGCGAGTAAAAATTTGATTCATAAAAATAATGCTGCTAGAAAAAAATCTAAATTAACAATTCATGTTAATTCACTTTCTTCAAAGAAGGCTCCTAAAAAAGCTGTTAAAGAAGAAGAATAATTTTAGTCAAACTCTAACCAACGAAATTTTTCATTCCTGACAAAATATGCATATTGGCTTAAAATAAACCAATAGAACATAAAAAATATTCCCGCAGAAAATTCTTTTGAGGATATAAATAGGATTAAAAAAAGCGCTAAAGCTTTACGAAACGCTATCATGGTGGACTCTTTTTTAAACAATAGATACCAAATTAAAACTGGAAAAGAAACCAAAACAGTGGATGATAAAATAGGGTTCTCATTTTGAATCCCAACGATGAAAACAATGATTAATAATAACAATGAAAGTAAGACTGTTTTAAGCTTTTGAGAGCGATAAAGTAGATATAATACTAAGTAAATTAATGATAAAGCAAAAATTTGCATTGAAAACAGCCCTAAAACCGCTGTTATGATCACAAATAACAAGACAAAATTAGACTGAGAATCCACTCTCACGGCTCGAAACATGCTAAACATAGGGTATTGATGCCACAATAACGAAAGTGCTCCGTAAATGAGGATTATTGTTCCCCAGTGAATCAAGAAACTTGTCCAATCAAAATAAAGAAATTGAGGACTCATTACGTTTCTCTCTAAATAATAAAGATAAGGAATAAGGGTTATCAAAAGATAAATGATATTTTCTCTTCGATTTACAGTCTCTTCTTGAATCTTAGACAACAAATTTTGAAAAAAAATAAATCCGCTAGACCCAACAGGAAATATTCTTTTTCTCATCAGATTAAATTAATCCAAATTGATAAAGAAAGACTAAAAAGATTAATAAAGGACTGATAAATTTTACAAGAAATCCGAAAACACTCACTACAGTTGCATTTTTAAAAATTGAGTTTCCAAATCTTGAATTATTTGAGTCGCCCATTAATAGACCTTTAATAGCTTTATCTACACCCCAAGCATGCCCCACAAACAATGCAATAAAGAATCCTCCAAGAGGAAGATAGATATTTGAAGCTAGGTAATCAAAAATGTCAAATATAGTGTATGGTTTAGCTCCAATGTTCAAAGTTACATCGCTCAAGACATTAAATGATAAAGCGCAAGGAATCGCTGCAAGATAAACTGCTATTGCCATGATTGAAGTTGCTTTTTTTCTTGAAAAACTAAACTCATCCATTAAATAGGCTACACTGACCTCAAGAATCGAAATAGCGGAGGTGATCGCCGCAATTGATAAGAGTAAAAAGAACATAATCGACATAATATACCCTAAAGGTAATTTCGCCAGTAACGGTGGTAAAACATGAAAAACAAGTCCAGGTCCAGCGGTTGGAGAATACCCCGAAGAAAATACCACTGTAAAAATGGCAACTCCAGCAAGGATAGCAATGAAAGTATCTAAGAATGCAATGATATTTGAAGCATGAACAATATCATCTTTTTTACTCAAATAACTTCCATAAGTCATCATAGCACCCATTCCTAAGCTCAAGGTAAAAAAAGCATGTCCCAAAGCTAATAAAAATGTTTGGGCATTGATTTTTGACCAATCGGGAGTAAACAAAAACTCTAACCCTTTTTCAGAATCTGGTAAAAATAATCCTTGGAAAACTAAAAAAAAGAGGATTAACAAAAGTAAGGGCATTAAATAGCGACTCACTTTTTCTAGGCCTTTTCGAACGCCTGATAAAATGATCGCTACAGTAGTTAAAAAGAATAATGTGTGAAAACCTAAAACCCAGTTTGCATTTGAATTCTTTAAATTAAAAAACTCACCAGCTACTTGTGGATTCTCAAATCCTTTAAAGGTTCCATTAATTGCTTCAAGCATATAGGCAATCGACCAGCCTCCAACTACGCTATAAAATGACAGAATAGTAAAACTTGCTATGACACCAAGTCCTCCCACATATTGCCATAAAGGATTTGTCGACAATTGCTTGAAGGCTCCTACTGGATTTTTTTGGGTTTCTCTTCCAAGAAGAATTTCAAGATTAAGAATTGGAATCCCGATCATTAGAATACATATTATATAAATAAATAAAAATGCTGCTCCACCATTCTCTCCCGCGATATAAGGAAATTTCCAAATATTTCCTAATCCAACAGCTGAACCGGCAGCAGCTAAAATAAAGTTTCTTTTTGAAGTCCAATTTTCTCTAGTAGTTGTAGACATTTTATTCCTTTGTGTTTAACGGATCATTTTCGATGACCAGCTGATCAAAATTATCAAGATGTGCTTCTACATAAGCATCAACTAAGCTATAAAAATACAACCCTATAGCTATCCAAGCAAAACGATTTCTTTGAGAAATATAGTGCTCAGATGAGTAAGGAAAATCAGGGGTATACTTTTTGACTTCTTGACGATATTGATCAAAATTATAAATGGCCCATACCTCTCCAGCAAGAATCAATGCCCCTTTCCACCACTGATCGTTGTAAATTTGACCATATCCTGGAAAAACCATTGCTTTTTTTAAAGCAATTTTTGGATCTTTTTGCTGCTCTTCTTTTGTTCTGAAATCTGTTTTTTCTTGAGATATGACCAAAGAGAAACAAAGCAAAATAGAAAGAAATTTTACTATCCTAGGCATTCAATCTCTACATTGGCTCCCATTGGTAACCCTGCCACTTGTATAGTCGATCTCGCAGGAAAGGGCTTATTGACTCTTTTTTCAATCTCCGCATTTACTAAAGGAGTAATAGAAAGGTCTGTTAAAAAAACTAGGAATTTCTTTACATCATTGATTGATTTATTGTGATCCGAAAGAACTGCTTCGAGGTTATTAAAAACTTGAATGACTTCACTCTGATGAGAATCATTGTTTAGATTTCCTGAAATAGGATCTATTGGAATTTGACCAGAAGTTATCCATCCTCCAGAAGAAAGTTCTCTGAACATTGAATAGGGTCCGACTGGGTTTGGTGATTTAAAATTTGACATAATTTCTCCTTATAAATTGCATAATTTTAATGTTGCTAAACCAATATCATCATTGTATTGGCGTAAAGTATTTTTATTTTGAAAATCATGAATGATAAATTCCCCTACAGCAGCAACTTCCATTTCAAATAAATGTCCTCCATAAACTTCCATATCATGTGTTCCTAAAGTAATGTGTGCATGTAAAAATGGTTCTCCATCTTTGATTGCTACATTTCCTTGAAAGGACAATAGCTCTAGGATTTCTTCGAAAATACGATGAATGTAATCTTTATTGGTAATATCATAGGCACCAATATCAATATTTCTTACGGCTCCAATACCCGAGATTTGCGCTGAATGAATTCCTTTTTCAATACAAAAGTTGGTAAGGGTTTGCATGACTTTTTCTCCCTCTTCAACATGAACGATATATGAATGATTTATTTTTTGAAATTGCATTATTCTTTCTCCATGATTTTTTCAATTGAATCTTTAATTGATTGAATGATTTCAATCTCAGAATTATTACTGCTGATCCCTCCTGCCATTGCAAAATCGTTCTTTCCTCCACCACCTCCCCCTAAAGGAGTTGCAATGAATTTAACAAGTAAACCAGCATTAAATGAATCGCTGATTAATTCAGATGAAAGACTGACAGACAAAGAAATTTTATCATCAACCTTAGTGAAAAGTATTATAAGACCTTTGGAAAAATTATTACGAATTTTTTGATCAATAACTCTTAAATCTCCAGCATTTCCTAAATGAACCTCACTAATGATTGTTTGTATACCATTCATCAAAATTTCTTGGGATAGTATTTGTGAAAAATCTACAGATTCCACTAATTGCTTTTGTAATTCTTTTTGAATTTCTCTTTCTTGTTCTGCAAGGATTTGATTTTTCTGAGAATTTTTAAGATCTTGAAGAAAAATATCAACCTCTGTGCTGGAAATCGCATGAATTCTTCTAACTCCAGATGAAATTGCTTTTTCGTGTTTTATTTTAAATTTTTCAATTTCAGCAGTGTTAGAAACGTGGGTACCTCCACATAATTCTTTTGAAAAATTTCCAATCGAAACCACTCGAACCATCTCGCCATATTTCTCTCCAAAAAGAGCTGTCGCGCCTTCCTTTTTTGCCTCATCAAGGCTTTTAATCTTTGTTTCAACGTTGATTGAATCGTTAATTTTTTGATTCACGATTTCTTCAATTTGATTGATTTCGTTTTTTGAAATTTTATTTGGATGTGTGATATCAAATCTCAGGTAGTCTGGATCGACCAATGAACCCGCTTGATTGACATGATTTCCTAGGGTGTCTTTAACAGCTTGATGCAAGAGATGGGTAGCAGTATGATTATTTTTAATCTTTTTTCTTCTCGTTAAATCAATAGCACAATTCACTGATAAATTGTCACCAATAGCACCACTATCAATCTGGCAAAAATGCAAAATAAACTCTCCGTTTTTTTGAGTATCTAAAACTCTTGCGGAAAAATCGCTATTTTTAATAATTCCCGTATCGCCTATTTGTCCACCTGATTCAGCATAAAATGGAGTTTGATAAAGTACTAGAATTAGGTTTTCATCTTCAAATGCATAATTAACAATTTTAGTTTCGATTTGGTCATTTAGATACCCCTCAAAAATAGAATGATCTTTGTCAAAATTTAACTGCCAATCAAAATCAATATTGTCGGATATAAATTTTTGGCCAGATTTTGCTAATTCTCGTTGTTTTTTCATTTCAACATTGAATCCCTCAATATCAACTTTCATCTGTCTTTCTTCAGCCATTAACTGCGTCAGATCTAAGGGAAATCCATAAGTATCATATAATTTGAAAGCATCAATTCCATCGATTATAGTCTTATTGGATTCAGAAATAATTTTTTCAAATTGAAGAACTCCCTTTTCAAGCGTTCTCAAAAAAGATTTCTCTTCATTTAAAATCGTTTGTTCGATGTATTGCTGTTTTTCCTTAATCTCAGGATAATGAGAAGACATTACTGTTACTAATGCTTGAACTAATTGATATAGAATTGGGTCTTTTACGCCAAGATTCATAGCAAACTTGGAAGCTCTTCTAAGAACCCTTCGAACCACATATCCCCTACCATCATTTGAAGGGATTATACCATCTGCTATGGAAAAAGTTAACATGCGAATATGGTCACATAGTACGTTATAAGATACTTCATGATCGTTGTACGATGTTTGAGAAATCGATTCGATTTCAGAAATGATTTCTGAAAAAAGATCCGTTTGATAATTAGAATTTTTCTGTTGAAGAACAGAACAAAGTCTCTCAAGACCAGCGCCCGTATCAACATGTTTTTTTGGTAACTCTTCCATGGAGCCGTCTTTGAGTCTATTGTATTGAATAAAAACTAGATTCCACAATTCCCAATATTCTGATGAATGGTTCACCATGTTAGCATTTTGGTTTGAAGGATTGTCACCTACATAGTAATGAATTTCAGAACAAGGACCGCAAGGGCCTGTTTCAGCCATTTCCCAAAAATTATCTTTTGCTCCTGAACGAATGATTCTTGATGGATCAATATCCGTACATTCTTTCCAGATTTCGTAGGCTTCATCGTCCTCTTCAAACACTGTAACCCAAAGTTTGTGCTTGTCTAATTTCCAAACCTCAGTGAATAATTCCCAAGACCATTGAATCGCTTCTTTTTTATAATAATCTCCAAAAGACCAATTTCCAAGCATCTCAAAGAACGTATGATGAAATCCATCTCTGCCGACTTCTTCTAAATCATTATGTTTTCCACTGACACGTATACATTTTTGACTATTGACTACTCGAAGATCTTTGGGTTGTTCCGTATTTAAAAAAATTGATTTGAACTGATTCATCCCTGCATTAGTGAAAAGGAGTGACTTATCTCCTATAGGTAATACAGGAGCACTTTTCACTCTTTTGTGAGCCTTACTTTCAAAAAAAGCAATAAAGGATTCTCTAATTTCGGAACTTTTCATTGATAAAATTGTTTCATAAGAATCTAAACAAATAATATATTCTTAGGATGAAAAATATAACAATTATCGCTCTGTTTTTAGTACTTTTTTCTTCAAATCTCTTCGCTCAAAACAATGCAATTCAATCTATGAAGGTCTCCAGTAAAGACAATGGAACTGTCATTGAAGTCTTTTCGGAAAAAAATATTCCTCTAGAAAATGTCTCTGCCTGGTATTCAAATGATTGGTTTTATTTAACCTTTTTTGACTCAAGTATCGATTTTGAAAACGGACAAGATTTTTTAAAAGGCGATATTAAGGATATTGAAATTCAAAATAACGATGAGTCGGGACAGATCGCTGTTAAATTGGCAAAAAATATTGAATCTTTTGATATTTTAGACTCCTCTCGATTAACCACTTCTTTTTTATTAAGATACTCTCAAGAAGCATCGAAAAAAATTATTTCGAAAAACGTTGATGATGACGATATAGAGATTGCATCTTCGTCTTGGAAACCATCTGGTAGTAATATGTTGCCTATCTTAGGTGCGATTATTGCTTTGAGTGATATCTCCAATCCAAATACATTTGTTCTTGGAAGTATCACTGCATTGCTTCATTTTGTTTTAAAATTATAGTTCAGAATATTTTTCCGTGTATTCTAAAAGTTTATTCTTGATTCCCTCTTCATAAATAGAATGCCCTGCATCAGGTATAATATGTAAATCAGCCTCAGGCCAAGCTTGATGAAGATCCCAAGCTTGAATAACAGGACAGATAATGTCATATCGACCATGAACGATTACTGCAGGTAAATGACGTATCTTATCAATATTTTCGATCAAAAAATTATCAGTTGGAAACCAACAGTTGTTCATAAAATAATGACATTCTATTCTAGCAAACGCTTCAGCAAAAGAGGCATCGGTAAAATGAGAGATAAATTCATCTTCGAGAATTAATCGTACTGAACTTCCCTCCCATGTACTCCAGGCTTGAGCAGCTTCTATTTTTTTTTGACGATCCTCTCCTGTCAAAATATCGTAATATGCACTCATTAAATTATCTCTTTTATGCTCAGGAATTGGTTTCAAAAATCCTTCCCATTTATCAGGAAAAATATTATGAGCACCAGACTGATAAAACCAGTCGATTTCTTTTTTTCTTACAAGAAAAATGCCGCGTAAAATTAGCGCCTTACAAGAATCGGGATGTGTTTGACTATACGCTAAAGACAGGGTGCTCCCCCAACTGCCTCCAAAAACGACCCATTGATCAATGTTTAAATATTTCCTTATTTTTTCGATATCTTCGACTAAATCCCAAGTAGTGTTCTCTCTTATCTCGGCATAGGGAAGGCTTTGACCACACCCTCGCTGATCAAACATTATAATTCTCCATTTCTGTGGATTGAAATATTCTCTATAAGATGGATCGATTCCTCCTCCAGGTCCTCCGTGAAGAAAAATGATAGGCTTTCCATTGGGATTTCCAGACTCTTCAACAAAAATGGAGTGGAGATCTGAAACATCCAAATGAAAAGAGTTAAACACGGTTGCTCTCGGAAATAAGTTCATACAATTTAAATTTAATAAAAAATCAATTGTATCGAATAAATATAATTGACGAAAATTTTTATTTGTGTAATTTATCGGGTCTTTTTTGTATGAAAGTTGGCGTATTAAAAGAAAATAAAAACGGCGAAAAAAGGGTGGCAATCATCCCTCAAACTGTCGCAACCCTTTCAAAAAAGGGTTACCATTTTTTTATTGAAGCAGGTGCTGGAGCTAACTCCTTTTTTTCTGATACTGATTACGAGAAAGCTGGGGCTACAATTTGTGACCTTTCCACAATTTATCAATCTAATATTATTATTAAAGTCAACGCTCCAACCTTAGATGAAATCAATCAGATTTCTAAAAATACTCTCTTAATTAGTCTTTTTCAGACCATTCGTGATATTGAATTGGTAAAAGCATTAAAAGAACGAGAATGCTCGGCATTTTCTTTAAATTTATTACCCAGAACTACTTTGGCTCAGAAAATGGATATCTTGAGCTCTCAAGCCAATATCGCAGGATATAAAGCGGTGATTATTGGCGCAGATCATTTAGGAAAATACATGCCTTTATTGATGACTGCAGCTGGAACCATCTCTCCTGCTAAAACCTTAATCATCGGTGCGGGTGTTGCTGGGTTGCAAGCCATAGCCACTGCAAAAAGATTAGGTGCTCAGGTTGAAGCTTTTGATGTTCGTCCTGAAGTCAAGGAACAAGTTGAAAGTTTAGGAGCGAAATTTGTTGAAGTGGAAAGTAGTAGCGATGATGGTGTAGGAACTGGAGGATACGCTAAAGAAACCAGTGATGAGTATAAAGCTAAGCAGCAAGAAATCATGAAAGAAAGAATTTCTGTCTCAGATCTAGTCATTACCACTGCTCTTATCCCCAATAGACCAGCTCCAAAGTTAATTACCACCGAAATGGTAGAAATGATGAAGCCAGGTTCAATTATTATGGATTTAGCCTCTGAGAATGGCGGAAATTGCGAACTGACCTCCCCTGGTGAAATTGTCAATCATAAACAAATTTTTATTGATGGAAACACCAACTTACCCAGCACGATGCCTACACACGCTAGTCAACTTTTTTCAAAAAATATTGAAGCAATCATCGATCATTGTCATGGAGAAAATGGTTTTCATTTAAATAAGGAAGATGAAATTGTTAGTGGGATGCTTTTCCTTGATAATGGTGAAATCACTCATCAACCAACCAAAGAGGCCTTATAATGGATGTCAATTTAATTACAATATTTATCTTAGCAATCTTTGTTGGAAATGAAATTATTAATAAAGTTCCTCCAACCCTTCATACTCCATTGATGTCTGGATCTAATGCTATTTCTGGGATTGCGATCGTTGGAGCTTTACTAGCTATTAGAGTTGGCGGTGAAATGGGAACGTACATTGGTCTTGCTGCTTTGATTTGTGCTACCATCAATGTGGTAGGTGGTTTTTTAGTTACTGATAGAATGTTAAAAATGTTTAAGAAAAAATGAATTTATTTTACCTTATATCCGCAGTTTGTTTCATCTTAGGTTTAAAAAGACTTTCCCATCCAAGAACAGCCAGAAGTGGAAACTTTTTAGCTGCCTTAGGGATGTTGATTGCTATTGCTGCCACCCTAGCCTCTTCAAATGTTTTAGACACAAATCTAATTCTAATTGGTGTAGGAGTTGGGTCATTGATTGGTTTTTTATTTGCAACTAGAGTTCAAATGACTGAAATGCCACAGATGGTGGCGATTTTTAATGGACTAGGTGGTGCTGCTTCCGCCCTTATCGCTTCGGCAGAATTTCTCTCCAATCCTAACAGTCCTTATATTATTGTTTGTCTAAGTGTTTTTATTGGATCTTTAACATTCACTGGTAGTTTCATCGCCTTCGGAAAATTACAAGGAATCATTTCAGGAAGAGCAATTACATTTAAAGGTCAGCAATTATTCAATGCATTAATTGCTTTAGCTAGTTTAGTGCTAATTTTAACCCCCAACCTTTTAGCATCTGATCTAATGACTGCATTTACTGTAATCATTATTTTAGCTCTTATTCTAGGAATTGGATTAACCATTCCGATTGGTGGAGCTGATATGCCAGTAGTGATTTCTTTGCTTAATTCTTATTCAGGTGTTGCTGCAGCTGCCACCGGTTTTTTAATTGATAATCAAGCGTTAATCATTAGTGGATCATTAGTGGGAGCATCTGGATTGATTCTAACAAATATTATGTGCAAAGGTATGAATCGTTCCCTTGCAAATGTTATTTTTGGAGCTGTTGGGGCTGAATCTTCATCTGGATCGAGTGCTGAAGGTAAAGAAATGAACATTAAAAGCTACTCTACTACTGAAGCAGCGATGATTCTTGATGCGGCAGAGAAAATTATTATTGTTCCAGGTTATGGATTGGCTGTTGCTCAAGCTCAACATATTACTCGTGAAGTTGCTGATACGCTAGAGTCAAAAGGTAAAAAAGTGTATTATGCCATTCATCCTGTTGCGGGAAGAATGCCAGGACACATGAATGTCCTTCTGGCTGAAGCAAATGTTTCTTACGATCTATTAAAAGATTTAGATGAAATTAATCCAGAATTTGAAGATTGTGATGTCGCGCTAATCTTAGGTGCAAATGATGTTGTTAATCCAGCAGCAAGACATGATCAATCAAGTCCAATTTATGGAATGCCCATTCTAAATGTTGATAAATCTAAAACGGTTATTATCAATAAAAGAAGTATGAATCCTGGATTCGCAGGAGTTCAAAATGAACTCTTTGGATATGATAATTCGATTATGGTTTTTGGAGATGCTAAAGATATGCTAAACAGCCTCCTTAAAGAAATCAAAGAATTATAAATTAGTATTTCTACGTATTTTTTCTAAATTTTAACCATGTCAAGTGTAAGTCTATATGAATTAGCTGATGAATTTAAAATTGCTCTTGAAGAACTTACTGACATTGAAGATGAATACATTCTAGATACCCTAGAATCAATCCAGGGAGAATTCAAACTAAAATCAATCAATGTGGCCAAATTTATTCGAAATCTTGAACATACAGCAGAGGGCATAAAAGAAACTGAAAGAAAACAAGCTGATCGAAGAAAAAATTTAGAAAACAAAATTTTAAGACTTAAAGAATATCTGAAAAGTAATTTAGAAAATGTTGGACTAGATAAAATTGAAAATGATGAATTAGTTATTACTATTCAAAAAAATCCTCATAAAGTTTCTATTATTGATGAACAATTGATTCCAAAAGAATATTTTGAGATTCAAGAACAAATCTCTATCAATAAAACAAAGATTAAAGAAGATTTAAAAAATGGGAAAGCTATTCCAGGTTGTGAAATGATTCAAGAAAAACGTTTAAATATTAAATAAATGCTACAATTTTTTGCTGAAAAAAGAGTTTTTTTTAATAGAATCCTAGGATTGTTTCTAATTGCGTTAATTTATTTTTCTCCTACCATCAATTTGAATTCCATCAACATGGAAAATTATAATACTTCACTATGGAATATTTCCGGAATGATTTTGATGGTATTAGGA
>sequence17
AGTTTTTAAACCTTACATTTACACAGCTGCTATTGATAATAATTATCCAGTAACAACTCAGCTTTTAAATCAACCGGTTTCTTTATATAGAAGGAATGCACAGGGAGAAAGAGAAAAATGGACTCCTAAAAACTACGATGACAGTACGGGGGGACTAACCACTCTAAGAGATGGCTTAAGACAATCTTTGAATCTTATTTCTGTAAGACTAGTTCAAGAATTAGTTCCACCTTCTCAGGTAAAGTCGGTTGCTCAAAGAATGCAAATTTCGTCTCCGATTCGAGCTGTAGATGCGATTGCTTTAGGAACATCAGAAGTAATCCCAATAGAAATAGTTTCATCCTATGCTATCTTTGGCAATAAAGGAATTTATTCCACTCCAATTGCAATTACGAGAATTGAGAACAAATATGGTCAAATTATTAAAGAATTTAAAACAGTACAAAAAGAAGTGTTAAGCCCAGAAACTGCTTATGTTATGACAAATTTACTTCAATCAGTGCTTGATAATGGTACAGCTGGAAGTGCTCGTTGGAGGCATCGATTTAGACACCCTGCTGCAGGTAAAACAGGTACGACCCAGAATTGGAGTGATGCTTGGTTTGTAGGTTATACTCCATCAATTACGGCGGGTGTTTGGTACGGAATTGATCAGTATCCAATTAGCTTAGGAAAAGGTCAAGCAGGTGGAGTTGCAGCATTACCAGCCTGGGCCATATTTATGAGAGAAGCTCATAAGACATTAAATATATCTCCGGAACCGTTTGAAAGACCGAAGGGTGTCATAGAAGTAGAAATAGATTCAGAAACAAAGCAGTTGCCTAATCCAAGAACTAAGAGCAAAGAAAAAGAAATATTTTTTCCTTCAAATGCGCCCCAAAGTTAATTGCTTTCCGATTTTTTGATTATTATCCAACCGCTGATTGCTAAAAAAATGTTCGGAATCCACATTCCAAGAGCAGGACTCATTAAACTTCTATCAGCCATTTGTTCACCCCATATTAATAAAATATAGTATACTAAAAAGAAAGCGATACTTAATCCAGCTGCAATAGAAATCCCACCCTTTTTAATCATTATACCAAGCGGGGAACCTACTAAAACAAATAGTAAGCACGCAACTGCCAGAGAGAATTTCTTATGAATTTCAACCCCAAATTGATTGATATTTTTTTCGTAATTATTAATTAAGCTTTTTTCATTTTTCAATTGCAGGATAATTGAATTTTCATTGATGAGTTCATTTGTATTCGAATTGGATTCTAAGTTTTCAATTAAACTATTAAGACTATTCTTGTCCCCAATAAAATTTTCTGAATCAATCTGGAGTTGGTTGATCCGCTCAAAGGACTGATTGATTAGGAAGTGGTAGTTCTCAATCTGAGTATTCATCATAGGAACTGTCATTTCTCTATCACTCCTAGTTCCAGAATTATTTCTATCAAGCATTAAATTTTCCAATGTCATAACCATTTGATGTTTCTGGAACTTGATTCTCCGATAATGATTATAATCTTTTAATCCAATTTCATGCATTTCTCCATTAAAAAGATTAATGGTTATAAGATTATCTTTGCTGATCAGATTACCATTGTTTGCATAAATTGTTGTTTGGTATTCATTATTATTTTTACTAAAGATTTTGACTTCTGAAAAAGAGTTCTCTACAATATTGGATGCAATCATTGTATAGCCAGGAATCATATCAAAAAAATATCCTGGCTCTATGATTAACTCAGGTTTTTTTTGGTAAATATCTTTTGCAAGAAGCCTAGCCTTAAAATTCATTTCTGGTAGAAGGAAATTATTAAAAAGACATAAAAGGAAACCAACCAATGCCCCAAAGTATAAGCTTGGACGAATTAAGCTCCAAAAATTGACACCTGCAGATTTTAAAGCTGTAATTTCATTTTGTTCAGACATTCTACCATATGTCATTACACTAGATAAAAGGAGCGACATAGGAATAGAAAGAGCAATAATCCATGATAAATTCAAAAATAAATATTCAACAATAATAGTTAAATCAAGTCCCTTTCCTAAGAAACGATCAAAAGAACGAATTAAAAATTGCAAAAAAAGAACAAGCGTAATCGTCAATAAAGAAAGTAAAAATGGAATCAAAGATTCGCGTAAAAGATATTTGTTTATTGTGGTCATTTACAAAATATTTTAAAATTTAACTATACTTGTGTTAATAGCTAAAGTATAATAAGTTTTCAGGCTTATTTTATAAGCTTATGGTGACTGTAGCTCAGTTGGTAGAGCCATCGATTGTGGTTCGATTGGTCGTCGGTTCAAGTCCGATCAGTCACCCAAAAATTCGGGGTGTAGCGTAGTCCGGTTAGCGCACGTGCTTTGGGAGCACGGGGTCGCAGGTTCAAATCCTGCCACCCCGACTTTGAGTATGAATAATATTTTTAAAATATTTTTTCTCTCCCTTTTTATTATTCAATGTTCATCAGATGTAAGCGTTGAAGATATTTTAACTAACAATAATAGTAATAATAACGGTGAGTTTAATGGAGGAGGCAACCAAACAATTCCCGAGTTGTCCGTTGAATTAATCTCAACCTACAACAATCAAACGGCATCCTTTGCCACACCTTTTGGAGGTTTTAATAGAAGTTTTATCGTTCATACTCCTCCTAATTTTAATTATGCTACTGAATCCCTGCCTTTGTTATTTGTTTTGCATGGCTATACTGGAAGAGCCTCCCTTATCAGACAATACTCTGGCTTTGATCAGATAGCTGATCAAGAAAGATTTATTGTGGTTTATGTTCAGGGAACTACAGATATTTTTGGAAATACTGGATGGAATGTTGATGTCGTTCCAAGTTTTAATAATGTTGATGATGTCGGATTTTTTCAAGCTTTAATCAAATATTTTACAACCACTTATAACGTGGATAGCGCTAAAATTTTTTCATCTGGGATGTCCTTTGGTGGATTTATGAGCTATCGATTAGCTTGTGAGTTAAATGAAATTAATAGTATTGGATCAGTGACAGGTTCAATGGCTGGATATTATCAGTGCAATCCTCCCAAAAAAACATCAGTGATTCATTTCCATGGAATGGAGGATGCAATTGTACCTTATAATGGTGCCGAATGGAGTTATTCAGCTGAAGCCGCTCATTCATTTTGGAAAAATCATAATCAATGTAATTCACAAACTGAAACTACCATCCCTGATTTTAACGGTGATGGTCAGTACGTTCGACATCTGGTTTCCTCAAATTGTGAAGCAAATAAAAATGTTGAACTCTATTCATTAGAGGGTGAAGGTCATACTTGGCTTAGTAAAGAATGGGGACATGACATTAACGCTTCTGAACTGCTTTGGCAGTTTTTTCAAAAACAAGAATAATACCTTTGAAGTATTTAAAAAATTCCAAGTGGACCGCAACTCAAAAAATTTATAATTGGCGACATTACGAAGTTTTGAATATCAATAATAAAACTCAGCAAGTCGAAATGTTTGCCGTCTGCGATAAAAAGATAAAAATTATAGTATCTTTTGAGGATTTAAAGAATCCATTAAAATGGACAAAAGGATGGCTAGACATTGTCGAGCAACCATCTAGCCATTGATTTATCCTAAATATAAAACCATCAATGAAAGCAGTAACAGTGTAATGGATGGCAACATTTTTCTTGGAGTGCTACCGATGCGTAAATGGGTTACCACTGCAAACGACATCAACGCTGTAATACCAAACAGACCAATTTCTTGAAGTTCAATACTTGAACTAAGCATCATAGTCGCGCAAGATAATTTTAAAACTCCTGTTAAGTCTCTCAGCCAAGATGGATATTGAAAGTCGTTCTTAAACTCTTGAACAATATTTTCATATCGAACCACCCATACAAAGAAAAGAGAGATGGGAATGATTACTTTGACAATAGTAATAATTAAATCAATACTCATTTTTTCTCCTTGATAATTTCTATAATATGATCATTTGAAAGATATTTTTCAATAAAATCTGTTAATCTAGTTTTTAATAGTGGAAACTAAAAAAATCCTTAATTTCTGATTGTTCGGGATGTGGCGCAGTCCGGTAGCGTACACGCATGGGGTGCGTGTGGTCGCAGGTTCAAATCCTGCCATCCCGACGCAAAATTTTTTTAAGAAATAAACATTTTTCATTAAATAAATATCAAAAAACCTTTTTAGTAATTAATATCATTCACAATGAAAAAAAACCAATTAAAAAAGCCTAAAATTTTAAACAGCAACAAAACTTTTGGTCCTATAAAAGATTTTGAAAAACACCTAAGCCCTAATTGGTGGAAAGAAATCTTTAACGCAATGTATATTAAAACAGATGCAGATGTTGTAGACGATTCTGATATCACCAGGAAAGAAATTGATATCATTAAAAAAATTCTTAATATCAAGGAAAATGACTCCTTGCTTGACTTAGCATGTGGGCATGGAAGACATTTGGTCGAGTTGAATTCAAGAGGAAACTACCATCTCTTTGGTATTGATAGATCAAGATATCTTATTCAGAAAGCTAAAAAAAATTCTAAAAAAAATAGTTTAAATATTAGCTGGAAAGAAGGAGATGCTAGAAGACTTCCGTATCAATCAGATAGCTTTGACTTTGTTACCAATTTAGGTAATAGTTTTGGTTATTTTGAAAGCGTCGATCATGATGCGAAAATCCTAAAAGAAATTTTTAGAGTATTAAAGCCTGGAGGTATTCTTTTAATGGATTTAGCGGATGGAAGTTTTTTAAAAGAAAACTTTGCTCCGAGGAGCTGGGAGTGGATTGATAAAAACTATTTTGTTTGTAGAGAAAGAAAACTTTCCTCCGATAATCAAAGACTGATATCAAGAGAAATTATCAGTCATTCAGAAAAAGGTGTTATTGTTGACCAATTTTATGCAGAAAGACTGTACAGTAAAGAAGAGTTAGTTTCGTTACTTGAAAGTGCCGATTTTAAGGATATTACTTTCCATGTTGATATAGAGACTCAATCTGAAAGAAACGAAGATCTGGGAATGATGCAAAAAAGATTTGTTCTTACCGCGAAATGTATTAAAGATTGGAGCCCTCGAAAAACACAGAAAGAGAATAAAAATGTTTTTGTTATAATGGGCGATCCTAGTTTAGAAGATGTTATCAAACCTAATGCTATTTTTGATAAAGATGACTTTGAAACCATCGATAAATTGAAAGAAGCTTTATTCAAAAATAAAGATTATAACTATCAATTTTTAAATAATCATAAATCACTAATTTCGGATTTACAAAAAAATATTTCTAATATTGATATGGTCTTTAATTTATGCGATGAGGGCTTTAACAATGATGCATTGAAAGAGCTTCATGTACCCTCTTTATTGGAAATAATGAATATTCCGTATACTGGTTCGAATCCACAGACCCTTGCTTATTGTTATGACAAGTCTCTTATTAGGGGTATCGCTTCAGAAATAGGCGTTCCTGTTGCAGACGCTTTTGTTATTTCGGGTGATGAGAACCTTTTTGATTTAAGTATTCCCTTCCCAATTATCGCCAAGCCCAATTTTGGAGATTCAAGTTTTGGTATAACTCAAAAAAATGTCGCGTATTCTCTTGAAGAGTTTACAGATGCTATTCAAAGAATTCGTAAGGAGTTTGGATATTCTAAGCCAATTTTAGTGGAGGAATTTCTTACTGGAGCTGAGTTATCTGTTGGTATAATTGGTAATATTGGAGATTATAAAATTTTACCCATTATTGAAGAAGACTATTCAAATCTTCCTGAAAACTTACCGAAGATTTGTGGCTATGAAGCAAAATGGATTATTGATTCTCCTTACATGAATTCTCTTAAGTCGATACCGGCAACGATTTCTGAAATTCAAGAAGAAGCCTTGATTCAATATAGTTTAAAACTTTTTGAGCGTTTAAATTGTCGAGACTATTGTCGATTTGATTGGAGAATGGATGCAAATGGGAATCCAAAGCTACTTGAAGTCAATCCTAACCCTGGGTGGTGTTGGGATGGTCACTTAGCTAAGATGTGTCAAATTGGTGGAATAAGTTATTCTCAAATGTTGGAATTAATAGTTCAGTCTGCTATTAAGCGATATAGCTTGAAAAAGTAAAGAATATAATCAATAGTTATTGCTCTAAACCTTTCTTATTCATTCTTAAAGATTTTGAATTTCTTTCTTTAAATGTTGATAAAAAATATGAAAATCTACTTCTAATTTATGTCGAGGGGTATCAATAAAATTAAAGGGCCGATTCGTTAGTTGATTATGAATAGCTTGATCAAGATTTTGGGGCAATTTCCATTTTCCATTTAAAAAGTGTACGATTTGTTGAGCCTGTAAATCTGCTAAAGGCCAAATACACCCCAGTGGTTGCAATAATCCTACAAACATTAAATTGTGGATTTGGGGATGAAAACAGTAATTATATAATTCAACTGGGTTATTTTCATAGTCAATTACCTTAGTTTCAAAAAAAGGAAAAGTAATTTTATAGCCCGTGGCGTAAATAATAGTGTCAAACTTTTCTTGAGCTCCATCCTCAAAAACTACTTGGTTATTTTTAAACGATTGAATGTTTACTTTTGGTTTGATTTTTCCATGTTTGATGAAATAGAGCAATTCAGAATTAACCGTTGCATGCGTTTCTAGAATGTCATGATCGGGGGTTTGTAATCCATAGTTTTCATATTTTCCTTGGACTAGTCTCAATACTAATTTTTGAAGAAAGAGCCTAATACGCTTTGGTATCCATAAAGTTTTGGAATAAAATGTATCGGAAGGCATTCCCATAATGAATTTTGGAATAAAGTGATAGCCTCTTCGCATACTGATTGAGGTTTTTTTAGCCACTCGGCTAATTTCTACAGCGATATCACACGCAGAGTTTCCTCCTCCGACAACTAAGACTTTTTTTCCTGAAAATTTTTGATTGTTTTTAAACGAATGCGAATGGAGAATTTCTCCAGAAAAATGGCCAGGATAGCTAGGGATTCTTGGATCCCAATGATGTCCATTACAAACAATTAACAAATCAAAATGATCTTTTCTTTGATCTTCCAGCGTGATGGTCCATTGATTATTCGTTAAAGATGCGCTAGAAACACGACTATTAAACTGGATGTAAGGTCTAATTTGAAAATGATCCACATAGTCATTAAAATACTGTAACAATTCTTGTTGTGATGGATAATCTGGATACGAAGAAGGCATTGGAAAGTCTGTATACTCTGAAAATTTTCTGGAACTGATAATATGGGTAGTTTTAAAGACACTAGAGTGACCTTCAGTTTCTGAATAGACCCAATTTCCTCCAACCTGATCATTCATCTCAAAACAGGTCACATTTTTATAACCTGCTTCCACTAAATTTTTTATGGTTGTGATTCCAGATGGTCCCGCACCAATGACTGCAATTTTTAAATTTGAATTCATGAAGAATAATTTAGTCATGTTCTGAAAAACTCTCTTGTTTAATTTGTTCTAATCTTCTTTCATTTTTAATATATTGTTACGCATGAAAATATTCTTAGATACTGCTGATATTTTGATTTTAAAAAACGCATATAATTCTGGACTGATCGATGGGGTTACTACCAATCCTTCTCTTATATTACAAAGTGGTCAACAGCCCCATGATGTTTATCAACAATTACAAGATTTAGGAATCAAGGATATTAGTGCCGAAGTCGTAGGAGAATCTGCGGAAGAATTTTTATTGATGGCAGAAGAATATATTAATATTGGTCCAGAAATTACGATTAAAGTCCCCTGTACAGAAGAAGGGCTGAAAGCTTGTAAAGTGTTATCTGATAGAGGGGTTAGGGTTAATGTCACCTTAATTTTTTCTGTTGCACAAGCCATTCTTTCTGCCAAAGCTGGTGCAACCTATGTTTCGCCATTCGTCGGCAGGTGCATAGATAATAAGATTGATGGAATAGAATTGATTGCTTCGATTTCAGAAGCCTATATCATCCATGATATCTCAACGCAAATATTAGCAGCCTCTATAAGAGATGTTGATATGGCAGTGAATGCTCTTCTGAACGGAGCAGATATTATTACCATTCCTCCAATTGTTTTTAATGAGATGTTTAAACATCATTTAACAGATGAGGGATTAGAAATTTTTAATCGAGATTGGATTAAAGTAAAACAGAAAGTGTAAGATGAAAGTAAAAGAATATAAAATTAAAAAATCTCTTTCCAGAGAAATCCAAAGATTGAATGACATTGTTGCCGATCTAGATTCGCTTGTAACAGAAATGGGGAGCGATTTTTATCGAGTGGTCATTTTTGGATCAGCTCGAATTCAAAAAAATACTGAAGAATACCAAGAGGTTCAAAATTTAGCCAAAAATATAGCAATGCTTGGTGCAGATATCGTGACTGGCGGTGGACCAGGACTAATGGAGGCTGCCAACGCTGGAGCAAAAGAAGGAAGTAAAAAAACCAAATCCATTGGGGTAAGAATAGAACTTCCTTTTGAATCAGAAGCTAATAGTCATTTAGATGTTAAATTTAGCCATAAGCGATTCTCATCAAGGCTTGATGAATTTATGAGAATTTCTAATGCTGTTGTGATTACACCGGGTGGTATTGGGACACTACTGGAATTGTTTTTTGCATGGCAATTAATTCAGGTTGAGCATATCAAACCAAAACCAATGATCTTGGTTGGGAATATGTGGAAGGGACTGATTCAATGGATTCAAGAAAATCCATTAAGAAAAAATCTGCTAGATCAGAAAGATATTGATAAGCTTCAAATTGTAGAAAAAATGGAAGATGTAACCCCAATTCTTGAAAAAGAAATCAACAATTTTTATAATAAAAAACAATAAAATTTATTGATGCTTTCTGCAAATTTTTTAATGAGCCAAGGAGAGTGTTGTGGCAATGGTTGTGTGAATTGTCCATATACTCCTCGACATAAAAAAGGGAATAAAAATATAAATATTAGTAAAATACAATCTAAAAGTATATTGTATAATTGGAGTGAAATCATGTCAGAATATTTAAAAATGCCAATGATTGGTTTGGGCACTTGGTTGTTGCCAAATGAGCTTGCTGAGGAAGTAACGATTACTGCCCTCAATTTAGGATACCGCCATATCGATACTGCGCAAGCCTATCGTAATGAAGCTGGGATTGGAGAAGCTATAAAAAAATCTTCACTTAGCAGAGATGGTCTTTTTATTACCACTAAAATGTGGCCTGGAATGGAGCCTGATAATAATTTTCAAAATTATAATTCGGTGATTAATTCTTGCAATCAAAGCCTTTCGATGTTGCAAATTAATGAAATTGATTTGTATTTAATCCATGCTCCTTTTGCTAAGGATTTGCGTTTAGAACAATGGCAGGCTTTTTTAGACTTAAAGAAAGATGGAAAGGTGAAAAATATTGGTGTCTCTAATTATAACATTCATCATCTTCAAGAAATTGAAGATGCAGGTTTGGAAATGCCTGCAGCCAATCAAATTGAAATTCATCCTTATCACTTAATCCGACCTACTTTGGATTCTTATATGGCAGAGCATAAAATCCTTCCAATTGCCTATTCTTCATTAGCACCGATTCCTAACTGGAGAGAAGGGTCACGATGGAATGGTAAGCCTGAGGAAATGAAAACTGGATCTATGCCTTACGAAGATATAGCAGAAAAATATCAAATATCTGTTCCACAATTACTTTTAAAATGGGGAATTCAAATGGGGTATCCTGTTTTACCAAAGTCTGTGAAAAAAGACCGATTAAAAGAAAATATCAATCTCGACCATTTTGAGATTTCTTTGCAAGATATGAAAGCATTAACCAATGCTCATTTAGATCAACAAAAATGTTTAGCTTGGTCGAATGGATTTGACCCGTTAGATTCAGAATAAAGTCATGGGATACCCTTATAATCCAAGAGTCGGTGATAACTATCGTTATGAAAAAGATAGTTCCAAGCCTTTTAAAGTCAGTAGAACAAAGATAGAATTATTTTATAATTGCCCTACTTGTTTTTACAAAGATGCACGACTAGGATTAAGACTTCCTCCTTCCCCTTCTTGGGCTATTAATAGTGCCGTGGATTCTTTGCTGAAAAAAGAAATGGATTTTTGCAGAAAAGAAAATCGCCCCCATGGTATTTTTACTGAAAATGGTTTAGATATTAAGCCTTTTCATCATCCAGACATTGAAAAATGGCAAAATGCCTTCCATGGAATTCAATATCTGGATGAAAAACACAACTTTCTATTGTATGGAGGAGTTGATGATATCATGGTGGATGAAAAAGATCAACTTGTGGTGATTGATTTTAAAGCTACCGCCAAAACTTCGGAGATTGTGAATCCTTCTGATGTTTATGATAATGGCGAGGGCTATAAAAGGCAATTAGAAATTTACAGCTGGTTATTACAACAAAATGGTTTCCCAGTTTCAGAGCTCGGATATTTACTTTACTATAATGGAGACGCTGGTCAGCCTCACCTAGGAACAAAAATGGTTTTTCGTCGATCACTAGTTTCATTTAATTTGGATACTAGTTGGATAAACCCGCTCATAGCTGAAATGTATCACTGCTTGCAACAAGAAGAAATCCCTTCTTATAATGCAGAATGTCATCAATGTATTTATTTGGACGCAGTTGAAAGACTAGATTTTTAGCCCTTTTTAACTGGCAAATAAATAAGATAACAATATGGGATAAATATCATTTCAATCCAGAAAATATACCATGGCCAGACTGTAGTTGGCAAAAGAGGATTGTAAACTAATAAAGCTGGTGCTTCCCTTAAAAAAAAGAAATTTTCTCCAGTCAAATAATTATAGATAAAGATAGGAACAATCAACAGGTTCAAAACTTTGAAGGCAAAAAAGATTGATTCTTTGGTGCAACGCATTTGGAACGCTGAGAGACACCAGGCAAGATTTAAGATAATAATACTATGTTGAAAATGTGCTGTAAGATTGCTCGATATATTGTATATCGTATCTGCTCCAGGAGTAACAATCCCCATAAAGGCACCCGACATTCCAAAAAAGTAAGCGATATAAAAGTAAGACTCTTTTTTTGTGTACATTGCTAATAAAGAAGCAAAATAAGCGAAATGACAGGGATGTAAGGGAAGTTCTTTGGTTAGCGAAAAATCATAAAGCCCTCTGGAAGAATCATAGATTCTTTGTCCAAAGTCGAAAATTTCTTGTCCTAAACTGAGAAAAATTAGAAGCCAAGTGAATGATTTGATTTGTTGATCATTGGCTTTTTGGCCGAAAAAATATACCCCTATCCAAACCAAGAACATGATTAGCGTAATAATGTAGTGATGAGTTAAATATTCTGGATACATTATTTCATTCCACTTGGTTTTTGGTACATATAGATAATATCAATTTCGTTTGACCTAGACATGCTCCCAGGATTTAAACCTAATTCTCCCTCCGGTATGCGGTGGTTTAAATCTCTATAGTAGTTGACCCATATAGGAAAAAATTCTTTACTTGAAGGTTGTTTAAAGGTCATGGGCTGAACTGAGAAAATGGTATTGGAAGCATCTGCATATTTCAATCCTTCATAAATGATTTCAGAACAATAATAAGAATCATTTTCTAAACTATAAATGAAATCATAGGGTTTCCCTAAAAGTGTTTCAATAAAATTTAATGCTGGTCCAATCAAGGATTGATGCTCATTTTTTAATCTTCCTATAAGTACTTTCGGACTACGATCTAAAAATTCTTTCAATGAAATTTCCTCCACTTCATTACCAATGGACTCAATAACAATAATATCTTGCAAATTTGGACCAACAGAACTAATAATAGCGCAATGCGAAAGATTCGCATTTTGATATCCAACGGTTACTGCTTCAATAGCATCGCAAGGTGGGCCACAATCTAAATCTTGAAAAAGAAGATCACCTCTTTCAAATTGGAATTCAGATGGTACTTCTCTAAAGAATAGGTTAAGGTACAGCAAGAAAAACCCCGCCATTCCAATAAAAAAGACGTTTCGGGTTATCATTTAGGTTGATCTAAAATAACGATTTCTTTCCCTGTGTATTCATACCGATCAGGGTCGGGCCAGGCTTTTGCCACGTCATGCCAATTATCAGACATTCCAAATTCAGTCTTTCTTTTTTCCATAGCATTTTGGTAATCTTGTTCAGAGTTGAACCAAAGTTCTGCCATTCCGCAGCATCCATTTTCAATATCTTCTTCGAAAAAAGTGAGAACATATTTTAATGGTTGCAGTACTTTGACCATATGAGGAGCATGGATATTTTCCCAATGATCAAAAAAATTTGATCGCTTAATTCCTGTTCTGTTTTGTATAAAAAGTATTTTTTTTACCATGAGTATCTTTCCTCCGTATCTAAAGATACCATCTTTTTTTTATTTACAACAATTATATTTGATGCTACATTGGTTTCTCAGGCAAAAAAAAGGATAAAGATGAAAAAATATTTTTTAATCTTACTTTCTCTTACTATAGCATTGAATGCCCAAGTAAATGAAGATAAGTTCAAACAATTAAATGAAGATATCACGACTCCTAATACCTATCGTACAGCTGCTGGATATCCAGGCCATGAGTATTGGCAACAAGAAGCTGATTATGATATGGAATTGACTTTAGATGATGAAAATCAAAGATTATATGGAGAAGAAACAATTACCTTTCATAATAATTCTCCAGATCAGTTAAACTATCTTTGGATGCAGTTAGATCAAAATGTGCGCGCCTTAGATTCGGATACTTATAAAGTTCAATCTACAGGCAATCTTTCTGCTCAAAGAGGAAATGAAAAGATGGTGATAGGCGAATCTATTTCTATGCGTGATTTGCAAAACTTTTATAGAGATTTTGACGGCGGATTCAAAATAGAACATGTTAAAGATTCTTATAATCGAGATATTCCGTATGTCATCAATCGCACCATGATGCGTATTGATGTACCCAAACCGATTAAACCAGGAGAATCCTATCGATTTAAAATAAAATGGTGGTATAATATTAATGATCATATCAAGGATGGTGGACGTTCAGGTTATGAATATTTTGAAGAAGACGATAATTATATTTATACCATTTCTCAATTTTTTCCAAGAATGTGTATGTACAACGATGTTTATGGTTGGCAAAACAAACAATTCTTAGGAAGAGGAGAATTCACTCTAATCTTCGGGGATTACGATGTAAAAATTACGGTTCCAGAAGATTTTGTATTAGGTGCCACTGGAGTTCTTCAAAATCCAATGCAGGTTTTAACTAGAGAACAAATGTCCAGATTGGATGAAGCAGAGACTGCCTCAGAGCCAATAGAAATTGTTACAGCTGAGGAGGCTCTTGAAAATGAACAAGAAAAATCAGATGCTACCAAAACTTGGCATTTCAAAGCAGAAAACGTAAGAGATTATGCCTTTGCAACTTCTAGAAAATATATTTGGGATGCAATGGGTGTTAAAATCGGTGATCGCACTGTTATGGCAATGTCTTATTATCCTAATGAGGCAAATCCACTCTGGGGACAATACTCAACTAAGAGCGTTGCTCATACACTTGAATACTATTCAAATTATACCTTTGATTATCCATACCCTGTAGCTATTTCAGCGCATATTGATCGAATGGGGATGGAATACCCAATGCTATCTTTTAATGGTTATCGACCTGAAGAAGATGGAACATATTCAGAATGGACGAAGAGAGGTTTAATAGGGGTTATTATTCATGAAGTAGGCCACAATTGGTTCCCAATGATTGTTAATTCTGATGAAAGACAGTGGACTTGGATGGATGAAGGTCTAAATTCTTTTATGGATGAATTAGCGGGAAGAGCCTGGGATAGAGAATTATTTCATCCAACTCGCAGCATCCAATATATTGTTAATTACATGAAGGGTGATAAATCAAACATTATGCCAATTATGACTAATTCCGAATCGATTTATCAATTTGGTCCTAATGCATACGGAAAACCAGCGTTAGCTCTGAATATTTTAAGAGATACAATTATGGGTAGAGAGCTATTCGATTTTGCATTTAAAGAATATTCAAGAACTTGGATGTTTAAGCACCCAACCCCAACAGATTTCTTTAGAATTATGGAGAATGCTTCTGGAACCGATTTAGATTGGTTCTGGAGAGGTTGGTTTTTTAGTAACGACCATGTAGATATTTCGATTGAATCTGTGGATTGGTTTAAATTGGAACTAGATCCAAGAGAGCAACAGTCTGCAGAAAAGAGCGCTCAAGAAGAAGCAAAAAATAATACTAGAACTGCTATCTTAGATTTAGAAGATATTGATCAAACCTACGCAGAGCGAGACCCAGATACCCGTGATTTTTATGATACTTATGATCCGTACGAAGTCTCAGAAAAAGATATTGAAAAATATGAGACTTTTTTAAATGATTTATCTGATGAAGAAAGATCTTTGGTTACACGTGATGATAATTTTTATCATATTACATTCAAAAATATTGGCGGTCTAGTAATGCCACTTATTTTTGAAATGGTTTACGAAGACGATACTAGCGATATCATCAAAATTCCTGTAGAAATATGGAGATTTAATAGAGATACAGTATCCAAAGTCTTCAGAACAGAAAAACCTGTAAAAGAGATAATTTTTGATTCAAAGAATGAACTGGCGGATAC
>sequence18
GGCGACAAAATATAACTTTATCTATTTCTCTTTTTTCTAGCAAGGATAATGCATATGCTACTGTCAAAAATGTTTTACCAGTTCCCGCTGGACCTGCTGCTAAAACAATTTCATTTTTTTGAAAAGTTTCAATTAATTTTTGCTGACCTTTAGTTCTGGGATAAATTGCACCTTTTTTACCATAATAAACTACATTATTAATTGAAATATCCGAATTTTCGCTTGTAAAATTTAGAGCAATTAACTTGTCAATATCTTTAGTGCTTAAATTATTCCCTTTTTTAATAGAGTCTACCATTAGTTGGAGGATTTGATCAAAACCATCAATATCTTTTTTAAGTCCCTGACAATAGATATTATTACCCCTTATATTAATTTCAATAGGGAGGTTTTTATCAAGAAATAAAATGTTTTGATCGCCAGCTCCATAAAGAGTTGTCAAATCAATTCCGCTAATTTCGAAAGTCTTCTTCATCTTAGTTTTTCAATTTTATTCCAAGGTCATCTAATTGTTTCTCATCAACAGTGCTTGGTGCTTCTTCCATTAATGCGGAGGCAGATGTAGTTTTTGGAAATGCAATGACATCTCTGATGTTATCTGATCCTGTTAAAAGCATAACTAGACGATCTAAACCAAATGCGATTCCTCCATGTGGAGGGGCTCCATAAGTTAGCGCTTCAACAAAAAAACCAAATTTCTCGCTAATTTCATTTTTGGATAAATTTAAAATTTGAAAAATTTTACTTTGGATTTCGCTATTGTGGATTCTGATTGATCCACCTGCTACTTCATATCCATTGATTACAATATCATAACCTTTTGATAATGCATCTTCAGGTTTATGTTCTAACAATTTTATATCTTCGTCTTTCGGAGCAGTAAAAGGGTGGTTAACTGAATCGAATTTCTTGGTTTTATTATCCCACTCAAATAAAGGAAAATCTTTAATCCAAACGGGAGCATAAATATCTTTCTTTACCAAATCGAGCTTATACCCTAAATCAATTCTAATTTTTCCTAAAATTTTTGATGCTCTATCGAAATCATCTCCAATAAATAATAGAATTGAAGAATCCTTTAAGTGAAAATTTTTAATAATTTCATTCTGAAGATTAGAATCAAAAAATTTAGAAATTCCGCCGTCAAATTTTTCCCCATCATATTTCATCCACGCAACACCCTTTGCACCATCATTCTGAGCTATTATATCTAACTCTGCAAGTTGTTTTCTTGAAAAAAAATCATTTTTATTAGAAATAATCATTCCAGATACATATTCAGAAGACTTGAATGATTCAAAATTAGACTTCTTGCCAAACGGACTAAAATCGAATAATTCAAGCCCAAATCTTAAATCAGGCTTATCAGTTCCGTATTTTGATATGGCTTCTCGATAACTTAGCGATGGAAATGGAGATTGAAATTTATATGAAATTGTCTTTTCAAAAACCTCTTTAAGTAAATTTTCAACTGTTTTCATTATTTCAGATTCATTAATAAAGCTCATTTCTAAATCTATTTGAGTAAACTCTGGTTGCCTATCAGATCTTAAATCTTCATCTCTAAAACATTTTACAATTTGAAAATATTTATCTAAGCCAGATACCATAAATAGTTGCTTGTACATTTGCGGAGATTGAGGTAATGCATAAAATTTACCTTTGTGTACTCGGCTTGGAACTAGATAATCTCTTGCTCCCTCTGGAGTAGATTTCATCAATATAGGAGTTTCTATTTCAATAAAATCTAACTTTGATAAATAATTTCTCACAACTTGTGTAGTTTGGTGTCTAATGATAAGATTATTTTGCAAAGATTTATTCCTAAGTTCTAAATATCGGTATTTTAATCGATGCTCTTCAGACGAACTCTCTCTATCATGAATTGACAGGGGTAAAGGGTTAGTTGAATTAATAATTTCACATGATTTCACAATAATTTCAATAGAACCTGTAGAAAGATTTGGGTTCTTAAGACTATCTTCTCTTTCTGAAACTTTACCTTCTATTGTAATTACATCTTCTAAAGATATCTTTTTAATAATTGATGTTAAAGACTCCGATTGGAATACAAGTTGAATAAGTCCAAATCTATCACGTAAATCTATAAATGTAATTTTGCCGTGAGTTCTGATAGAATGAACCCAACCTGACAGTATAACACTATCTTTAATGTTACCTGTCGATAATTCACCACATTTATGTGTTCGAAATTTCATATTTTAAAAATCTATTTATTTTACTTCTTGAATGTCTTCAAGAAGAAGTACGACTCTATCCTCAATATCATCAGCAGGATCAGAATTAATATCAACAATACCAGCTGAACAAGAAAAATCAATTTTCTCCTTCGCTGTTTTCACTGATATTACACCTTCTTTTAGATTAATGATAGAATTAGTATGGTTTTTTAATATACCAAAATATCCACTTTCACCTGGGCATAGTGTATGAATAACATCACTAAATTTATAGCTCTTTATAGGAGTAATAATTTCTAGTGTATATCCACTCATTACTTTCTACCTTTTTCAATCGCTTCATCGATTGAACCAACATATGAAAATGCATTCTCAGGTAAATCATCAACCTCACCATTAAGAATTGCTTCAAAGCCAGCAATCGAATCTTCTAGTTTAACGTATCTACCTTCAATACCGGTAAACTGTTCAGCAACAAAAAATGGTTGAGACATAAACTTTTGCATTTTTCTTGCTCTAGAAACAACCATTTTATCTTCGTCCGAAAGTTCATCCATTCCTAGAATCGCTATAATATCTTGAAGGTCTTTATACTGTTGTAATGTTGATTGAACAGACCTTGCAACATTATAATGTCTATCTCCAATAACTCTTGGATCAAGAATTCTTGAAGTCGATGTTAATGGATCAATTGCAGGATAAATTCCAAGCTCTGCAATCTTTCTTTCGAGAACTGAAGTAGCATCTAAATGAGCAAAAGCCGTAGCAGGGGCTGGATCAGTTAAATCATCAGCTGGTACGTATATAGCCTGTACGGAAGTAATTGAACCTTTTTTTGTAGAAGTGATTCTTTCTTGTAAATCTCCCATCTCAGTTGATAATGTCGGTTGATATCCAACAGCAGAAGGCATTCTTCCTAAAAGAGCTGATACTTCAGAACCAGCTTGAGTAAATCTAAAAATGTTATCAACAAATAATAAAACATCTCTACCTTCCTCATCACGGAAATATTCTGCCATAGTTAATGCACTTAAACCTACTCTCAGTCTCGCACCTGGAGGTTCATTCATTTGTCCAAAAACTAATGCAGTCTTATCTATCACCCCTGATTCAGTCATTTCTGCATAAAGGTCGTTACCTTCCCTGGTACGTTCTCCAACGCCAGCAAAAACAGAAAATCCTCCATGTTCTGTTGCAATATTTCTAATCAATTCTTGGATTAATACAGTTTTTCCTACTCCAGCACCACCAAATAAACCTGTTTTTCCACCTCTAGTGTAGGGCTCCATAAGATCTACAACTTTAATACCAGTTTCGAACATTTCAGATGAAGTAGTTAGGGTATCTTGTGCAGGAGCGGAACGATGAATAGGAGACATTGTAGTTTTACCAAGATCGCCTTTTTGGTCAATTGGATTTCCTAAAACATCAAACATTCTTCCAAGAGTCTCTTTACCAACTGGTACAGAAATAGGTTGTCCTGAGTCAGTTACTTTCTCACCCCTAACAAGTCCATCAGTTGAGTCCATAGCAATAGTTCTTACTACACCTTGACCAAGATGTTGAGCAGTTTCCAAAACTAAATTTGAACCATCATTTCTTTTTATGCTCAATGCATTCATAATTCTCGGAAGATAACCTTCATCGAATTTCACATCGACTACAGCACCTGTTATTTGTAATATTTTACCTTCGTTATTCATTTTTTTCCCCTTAATCTACTAATGCTTCCGCACCACCAACAATCTCCAACATTTCTGTAGTGATTGCTGCTTGACGCGCTTTGTTAAATTCTAGTTTTAAATCTTTGATAATTTCTTTGGCATTTTCAGTCGCATTGTCCATCGCAATCATTCTTGCAGCTTCTTCACTACTGTAAGACTCAAGAAGCTGCTGCCACATCTGAACTTTGATATGCTTTGGAATTAACATGCTAACAATTTGTTTTTGTCCTGGTTCATAATCATAATTATAATTTTTTATATTATAGTTTAAGGTAAAATCGACAGGCAAAACCTTTTCCATAACCAATTCTTGAGAGGACAAAGTCTTGAAGCGGTTATAGATAACGTGAACTTCATCTACTTCATTGCTTTCAAAAGCGTTTATAAAACTTTCAGAAATTTCTGATGCCGTTTGAAAACTCATATCTCTCCAAAAGTCAAAAAACTTTTCTTGAACATTAAAATTTCTTTTTGAAAAATATTCTGATGATTTTTTTCCAAGACAAAAAAGTTTTACATTGTCTTTCCCAAGTCTAGAGATTTCTTTCTCTGCTAACCTAATGACACTTGAATTAAAAGAACCTGCAAACCCTCTATCGCTTGTAATTACAATCAATCCAATATTTTGTACTTCTCTTTTTTCAACAAGAGAAATATCAGATGATGAGACTTGCGGAAGTATTCGACAAATTAACTCCTGAGTATTAAGGGAATATGGCCTAGATATTTCCATTTTCTCTTGAGCCTTTTTTACTTTAGCAGCAGCGACCATTTTCATGGCTTTTGTTACTTGCTGAATACTTGTAACAGATTTAATACGTTCAGATAGATTTTTAAGGTTAGCCATTAAAACTTCTTCTTAAATTCCTCAACGGCACTGTTCATTTTCTTAGATAAGTCATCAGTAATATCGCCAGTACTAATTATTTCACCTAATAAATCTGAATGTTTGCTTTCAAAATGTTCTAAAAGTCCTATCTCAAATTCTTTAACTGATTCCAAATCTATATCATCAAGATATCCTTGACTAGCAGCATAGATGATAACAACCTGTTTTTCAGTTGGCATCGGCACATATTGATTTTGTTTTAAAATCTCTACCATTCTTCTACCCCTTGTAATTTGAGCAGCAGTTGAATCATCAAGATCTGAAGCAAATTTTGCAAATGCTTCTAATTCTCTAAATTGGGCCAAATCTAATCTTAGTTTTCCAGCAATTTTCTTCATTGCTTTAATTTGAGCACTTCCTCCTACTCTTGAAACTGACAATCCAACATCAACCGCTGGACGGACACCACCATTAAATAAGTTTGTATCTAAATAAATTTGCCCATCAGTAATAGAAATTACATTCGTGGGAATATAAGCTGATACATCTCCCTCTTGAGTTTCAATAACAGGTAGTGCTGTTAAAGACCCAGACCCTAAGTCTTTTGATAATTTTGAAGCTCTTTCTAATAAACGACTATGCAAATAGAAAACATCTCCAGGGAAAGCTTCTCTACCTGGAGGTCTTCTTAATACAAGTGACATTTGTCTATATGCTGTTGCTTGCTTTGATAAATCATCATAAACAATCAATCCATGCATTCCATTATCTCGGTAATACTCACCCATTGCACAACCAGCGTACGGAGCAATATATTGTAAAGGTGCCGGATCAGATGCATTAGCGACTACAACTGTTGTGTATTCCATAGCTCCATTCGCTTCAAGTTCAGCAACTAGCTTTGCAACAGTTGATGCTTTCTGACCTACAGCCACATAAATGCAGTAAACAGGACTATCGGATTTATGAGTTGATTTCTGATTAATAATGGCGTCAATTGCAATTGCAGATTTCCCTGTTTGTCTATCTCCAATAATCAACTCTCTTTGTCCTCTTCCAATAGGAATCATACTATCAATAGATTTTAGACCAGTCTGAAGGGGTTCTTTAACTGGAAATCTTTGCATAACTCCCAAGGCTTTTCTTTCAATTGGTAATGAATTCTTAGCATTGATTGGGCCTTTACCATCAACAGGTTGCCCAAGAGGATCTACAACCCTACCCAATAATTCTTTTCCGACTGGTACTTCAACAACTTTTCCAGTTCTTTTAACTGTATCGCCTTCCTTCACTAGACTACTGTCACCAAAGAGCACCACACCAACATTTTCTTCTTCTAAATTCAAAGCCATTCCAAAAACGTTGTTTGGAAATTCAACTAATTCTGAACTCATGACGTTACCAAGACCACTTGTTCTGGCAACACCATCACCTATTTCTAAGACTTCACCAACCTCATTAACATCAACTCCAGCATTAATGTTATTGATCTGACTTCTTAACAAATCACCTATTTCATTTGTTTTAATGTCCATTTATACCCCTATTAATTTTGATTTTGCATTTTCTAGTTTAGTAAGCAGAGAATTGTCATATAAAACATCATCTACTTTTATCTTAAGACCACCAAGCAGCTTACTATCAACAAAGAAATTTATATTAATTTTCTTGTTTAAAATTTCACTTAATGAACTTTTTATATCTTCCATGAGAGTCGTTTCAAGTTTTTGTGATGAAGTAATCTCTACGAAAGCTATGTTTAATTTGTCTTTGGAAAGCAAAGTAAAGTGTTTGTCAATCTGATTAATCAAATTAATATCATTGTTTTCAATTACAACTTTTAAAATCTCAAACAAGGTTTCATGCATCGAACCAACCAATGCGATTTCAAAAAGATTGACTTTTTCCATTGTGCTAACAGATTTAGACTTAAAAAAAGAACCTACTGTTAAATCATTTTTCATTGAAGTACTTAATTCAAGAAGTCCACTTTTGACTTTGAGAAAGTCCTCAAACGTGTTTACACTATTGTTCAAATTTTCAGAATAAATTCTTATTTTTTTATGATTTTGCTTCATCTGCTTTCATTGTTTCAAGCGATGATTTAACAAATTTCTTGTTATCATCATCATTAATATTTCTCTGTAAAACTTTTGTAGCTAAATCTAAAGAAAGACTAACAACCTCTTCTTTAATTTCCTTAATAGCACGTTTTTTTTCAATTTCGATTTTTGATTTTGCTTCATCTAAAAACTCATTAGACTTAGCTTTTGCATCTTCAAGAATTTTGGCAGCTGATTCATCTGCTTTTAACTTGCTATCATTGACAATTGCTTTACCTTCTTTTTTGGCATCATTAAGAATTTTTTCTGACTCTTCTTTAATTTTCTCTAAGTCAGTCTTTGCGCTTTCTGCCATTTGTAGAGAACTTGCGATTTCCTTCTCCCTTTCATCAAGAAAGTTAAGCAAAGGATTCCATGCAAATTTTCTAAGAACAAAAAGTACTGTCATAAAAATTACTAATGACCAAACATAAGTACCCAATTCTGGAGTAAGTAAGGGATTAACACCCTTACTATTCTCTTCCAGTATTAGAAAACTTATACCAAATATTGGCGTTAATATTAAGTTCATATTATTTCCTTATTTTGATTATAGAACTAATGATAATAATCCAAGCAAAATTGCTGCACCTTCAACCAAAATAGCTAGAAGAAATGTTTGAGATCTAATTTCTCCAGCTGCTTCAGGTTGTCTTGCTATAGCTTGAGCAACTCCATAACCAATTAATCCGATGCCTATTCCAGCACCAATTACTGCTAACCCTGCTCCCATAATGAGACTCCTTTTTTTATTAGTGATCTACGTGAATTGCCATTCCGATAAAAACGGCAGTTAATAATGCAAAAACATATGCCTGAATTACTGCAACAAGCAGTTCAAGCATTGTTAATCCTAATGCAAGTGAAACTGAGAAGGGGGCTATGCCTAAACCAGCCAAGCCTCCTATTTCTGCAGTGGCACTAAAAATAAATGTTATAAAAATAACTAAAGCTATGTGTCCACCCATCATATTGCCTGCTAACCTAAGTGTTAGAGCTAAAGGTCTAATAAATAAACCCATAAATTCAATCGGCACAACAACAAAGTATAGAGGCCAAGGCAATCCGGATGGAGCGAGATTTTTCCAATGCTGAACGAAACCATATTTTTTAATCCCAGCAAAAATAAAAGCGCAAAAAGTAATGGTGGCTATTGCAAAAGTTACATTCACATTAGCTGTAACAGTATTTCCACCTTTTGAAAAAATATAAATTGAATCTATGTGAGATATCTTTCCAACAAGACCAAACAAATCGAAGATTGGAACTAATCCGAGTAAATTACCAAACAAAATAAAGAAAAAAATTGTATAAACTAAAGGAGCCCAGGAACGGTATTCTTTATCACCAATAAAATTCTTCAAAACATCATCTCTTAAGTATATTACAAACATTTCAATAATACTCATGAATTTGGAGGGTATATTTTTTTTATTTGAAATATATTTTTGAATTAAAGTTACTATAGTCGTTACAGTTATTAATGAAACAAAAAATAGTAAAAAAACATGTTTAGTGATTCCTAAATCAATGTAAAATAGAGAATCAGAACTAATCCCCAAAAAACTAGAGATTTTCTGAGATAAGTTATCAAGGATTTCAAATTCAAATAGATTTTTTGGACTATTTGCTACGTGATCAATGGCATATTGAGGAGCTTGATCCATTGTCCATTTTCCTGTTGTTTTTTCTCCTAGCATAGCGCCGGAATATAAACAGAAAGACATATTGAAAAACAGAAAAAAAGGAAGTTAAAATTATTTATTTAATTTGACACGTTTATAAGCTCTATACGATGCATGAAAAACACCTAGAATTATCGGAATTATTCTCCAAAAATTATTGAAAAAGAAAAATGAAATAAAGAACCAGGAAACAATTATTCCTAAAAATTCGAAATAAATTAAGTAGCTTTCACTTAAGATTGACTGGAGTTTTTTTTTGGAATTATTCAACAATGATATCACACCTCCCAGAAAACTGGGCACCATCATGAATTTTTAGGGCACGATACTGAATATTTCCAATAAGCTTACAATTTGAAAGTAGTTCAACGCTCCCGTCAACAAAGACATCTCCATTGATTAGTCCATTGATTTCCATAAATGAACAGTTTACATTTCCATGAATTTTTCCAATTTTAGCTAATTGAACAGAACCCGATGTTACTAATGACCCCTTTATTTCTCCATAAACTGTAATATCTCCATCAAGTTTTACATCTCCATCAATTATTACATCCTCAGCAATTATTGTTTGAGATTTACTCATCATTGTTCCTTTCGTTATTTAATTCATCTTTCTCATCAAAATTAGGAAATAATAAGATAGGGTTAATTGCTTCACCGTCTTTCCAAATTTCTAAATGAAGGTGAGGACCTGAAGCCATACCTGTTCCTCCAAGCTTTGCAATTAAATCACCTCTAGAAACCTTCTCATTTTTTTCTAAAAATAACTCCTCGTTATGATAGTAGTGAGAAAAATAGCCGTTTTTGTGATCAATAATAATGGCATTCCCAATTTCTTTGGTAAAATCACTAAAGATTACTACACCGTCAGCTACAGAAAAAATTGGAGTTGAAACATCATTAACTATATCTATACCTAAATGTTTTTTACTAAGATCAAATCTTTGACTTAATACTCCCTCCACTGGATAACTAGATGGTACATTACTCACCAGAACAGACCTAATCAAATTTTCATCAATATTCACTTCTTTTTCTGTTCCAATTATTGATTCAATATAATTTTTCATCAGGTTCAATTCATTAATAGTTCCTGAAAGATTATCAATAATAGCTTTTTGTTCTGAAAGTTGTTTATTGATATTTTGAACCTTAAAATATTCTTGTACGATTGGTTTTGAAAAAATAATTAATGTAATAAAAATTGATAAGAGTAAAAAAATTGAAGCAAGATAAATATAGAGTTCAGACTTGCTAAATTCAATTTTTAAAGCTTTCTCTTTGTAGGGTGATGTAAAAATTAGTTTATATTTTTTACTCATATATTTTAATCGCTTTTAATAGATTTTAATTTCTCAACAACTCGATCAAAAGTCATTTTGTCAAAATGAATTTTTACACTCCCTTTGCTGGATCTATTAGAACTTATCTCAACCTTCGTTCCAATTTTCTGAGATAACTCTGATTCAAGACTATTAATAATTTTATTCTGCTTTTTAGGATTGGATACAGCTTTTTCTACTTTTCGAACGGACAAATTTTCTTTTAAAATTTTTTGCCATATTTGAATCATCCCCTGTGAAGTCTTCTTTTGTAAAATTGCTCTAGCTTGACCAGCGCTAAGATTCCCTTCTAAAATGCTTTCTTGAATCGGATCAGGCAAATTTAATAGTCTTAAAGAATTTGAAACGGCAGGACGAGACTTTCCAACTGTCTTAGCAATATCTGTAATATTTAATGAAAAATTTTCTTGTAAATATTTATAGGCTTTTGCTTCTTCAATAGCATTTAAATCATCTCTTTGAATATTTTCAATTAATGCCATAAACATGACATCTTCATTGCTTTTTTCTTCTTCGATTACATAACATAGTATTCTCTTTTTGCCCAATAATTGATGGGCGCGCAATCTTCTTTCTCCAGCAATAACAATAAATTTTGAACCTTCAGGTTTTACAGTAATTGGAGAAATTAGCCCTTTTTCAGCAATTGAATTAGCTAGCTCATTCAGAGACTTCTTATCAAAAACCTTTCTTGGCTGATTGGGATTAGGAATTATTCTGCTAATTAATATATTATTTTGATCTTGTGTTGAATCATTTTGATTTGAAGTGAATAAAGCATCGAGTCCACTTCCCAATTTTGATTTATTATTTTTCATTTATTTCCAATGCTAGGTTCATATAATCTCTTGCACCAATACAGTCTACATCATACATAATAACAGGACGCCCGTTATCTGGTGCTTCAGCAAGTTTAACATTTCTGTTAATTCTTGTTTTGAACAATTTATCTTTAAAATGTGTTTTTAACAAATTGTCAACCTTTTTTGCAAGTTTTAATCTCTTCGAATGCATTGTAATGAGGATACCCATAATTTTAAGCTTTGGATTAAAGTTATCCTGGACAATTTTTATTGTATCATTGAGACTATTAAGACCTTCAAGCGCAAAAAATTCACTTTGTAATGGGATGATAACATTATTAGATGCAACTAAAGCGTTAAGCGTAAGTAAGCCCAATGATGGTGGGCAATCAATTATAATATACTCATATTTATTACTGATCTTCTTGATGGCATCTAATAATTGGTTTTGCCTGTTTTTAATATTCACCAATTCAATCTCAGATCCAACCAAATTTCTTTCAGATTTAATAAAATTCAAAAAATCAAGATCTGTCTTACTAATAGCATTATCTATTGAAATTTTTTTCGATAATACATCATAAATAGAACAATCATTATGAAAACCAAAATTACTCAATCCACTTGTGGCGTTAGCTTGGGGGTCAAAATCAATTAACAATGTTTTCTTTTCAAGAATTGCTAAACTAGTTGCCAAGTTAATTGCGGTGGTTGTTTTGCCGACACCACCCTTTTGATTAATAACCGAAATAATTTTGCCCATTTGAAGAAAAAATTTAATTTTTATAATTTGTTAATACAAAGTTTTTAACTATTCTTTTACTAATCTTAAATTTTTATATGAAAACCATGCTCATTACTGGCTTTAGAGGGGAAATAGGTTCTCAAATGCTTAGAGAGCTAGTTGAAAAAAATCCTAATAGTCAAATCATCGCACTCGATTTATTAGAAAAAACTCAAAGCAACTGCTTTCAAAATGTCGAATTTATTCAAGATTCAATAACAAATATTGAACTTTTACAATCTATTTTCGAAAAATATAATATTGATGAAATTTACCATTTCGTTGCACTTTTAAGTCAGTCAACGAAAAAAAATCCTGAACTAGCTCAAAAAATTAACGTTGATAGCACTATTTCGATTATAGATTTAGCATACGAATTCGGAGCAAAAAACAACAAATTTATTAAATTCTTCTTCCCTAGTTCTATAGCCGTTTATGGTCCCAGGAAAATTGCTTTAGCTTCTGAAAAAGATATAATTAAACCAATTAGTCTTTATGGACTTAATAAAATAAATATTGAACAGTATGGTACAAAAAAATATGAACAGAGTATTCTCAATGGTTCTGGAGTAGATTTTAGATCATTGAGGTTCCCAGGTATTTTAAGTCCTTTTAACATTCCTACTGGAGGAACTACAGATTATTTGCCTCAAATGTTACATTCGGCAAAAAAAGGCCTAAAGTATGTTTGTCAAGTTGATAAAAAAACCACTCTACCTTTTATAACAATTGATAATGCAATCAATGCTATCGCCCTACTTATGTCCAGTCAATGTATCAAATCAAAGCTTCGTTCTTTTAATGTACAAGATTTTTCTATCTCTGCATATGATTTTGAACTTATTTTAACGGAGATGTTTTCTGAATTTCAGACTCAATACAAAAGCAATCAAGATTTACAAATTATTGCTGACTCTTGGCCTGATAGCTTGAATTGCGAATTAGCGTGTTCTTGGGGATTTTCTTCAAATAATGAAATTAAAAAAATAATTAATAACTTTTTCAATTTAATCGATGTCTGAATTAAATAAAAAAATCGACAATCAACTTTCATTAATGCGTGAAAGCGGAACTTATAAAAATGAAAGGATTATTGGTTCATCGCAAGAAACATCGATATTTGTAAACAACCATAATGTTTTAAATTTTTGTGCTAATAATTACTTAGGATTAGCTAATGATATTAGAATTAAGAATGCAGCGATTCAAGCAATAAATGAATGGGGTTATGGGCTAGCTTCCGTAAGATTTATTTGTGGAACTCAAGAAATACATAAACTTTTAGAAAAGAAAGTTTCAGATTTTTTAAAGAAAGAAGATACCATTCTTTATTCTTCTTGTTTTGATGCTAATGGAGGAATTTTTGAAAGTATCTTAGATGAAAATGATGCTATTTTCTCCGATGAATTAAACCATGCATCAATCATTGATGGAATTAGACTTTGTAAAGCTCAAAAGAATCGTTACAAACATATTGATATGGCAGACTTAGAAAGCCTTTTAAAGAATTCAACCAGTAAAACAAAGCTCATAGTAACAGATGGTGTTTTCAGTATGGATGGGAATATCGCTCCGTTGAAAGAAATTACAGAATTAAGTAGAAAATATAATGCTCTGGTTATGGTGGATGATTGTCACGCAACAGGAGTAATTGGAGAAAATGGAATGGGCTCTGGATCCTACCACCAAGTTCATGAACATATTGATATTATCTCATCAACATTTGGTAAAGCATTAGGAGGAGCTTCGGGTGGATTCATAACCTCTTCCTATAAAATAATTGAACTCTTAAGGCAAAAATCTAGACCATATTTATTTTCAAATAGCATGGCTCCTCCTTTAGTTTCAGCTTCAATTGAAGCATTTAATGTAATTAATAGTGACCCATCAATTTTTAAACGATTAGATGAAAATACAAAATACTTTAGACAAAAAATTATTGAGGCTGGTTTTGAAATTAGAGGAGAGAATCATCCTATTGTCCCTATTATGATATATGATGCCAAAAAAGCAATGGAATTATCCAAAAAACTTCTTGAGAAAAATATTTATGTCATTGCCTTCTCTTTTCCAGTGGTCCCCAAAGAAAAGGCAAGAATTCGAGTTCAACTGTCTTCTGCTCACACAAGAGAACAAATTGATTTAGCTATTAATAGCTTTATAGAATGTTCTCAAGAATTAAATATTATTTAAAAAGTTAGTAAATTTTTTCTTTATATTGTTAAATTCTGCTCACAATTATGAATAGCACTATTAAATCAAGATTTTTA
>sequence19
AGCTGAAGAAGCTGAAGAATCCTCCAAAGAATAATTGATTGGAGAGGTGGCCGAGTGGTTTAAGGCGCACGCCTGGAACGCGTGTATAGGTTAATAGCCTTCGCAGGTTCGAATCCTGTCCTCTCCGCAAACAAATGTTAATTAAGCTTTTCATTCATTATACTTTTCACTTTGTAGTTCCTATATTTATTGCTAGACCCTTTTTTAAAGACAATTGGCTTAATGCATATCTTTTAATGCTTGCAACACTATTAATTGATTTAGATCATTTATTAGCAAGTCCTATATTTGATCCCAATCGATGCAGTATTGGTTATCATCCTTTGCATACAGTTTATGCGGCATTTTTTTATCTCTTGCTATACTTCATACCATCTTGGAAGTGGAAAGCAGTAGCTATCGGCTGTTTATGGCATCTTTCTACTGATTATATTGATTGTTTGTTGTAATATGAATCAGGTGAAAAAAATCAAAACAACCAAAAATTTTGAATTTTATAGCGTTTCAACAGATTCTAATTATCAAATTCCTTTAATTCCTTCCATGGTATCCGCTGGATTTCCATCCCCAGCTGATGATTACTTAGATGTTCCCATTGATTTGAACGAACATTTAGTTGAAAATGTAGCCGCTACTTTTTATATCCGAGTTATTGGAAATTCAATGATTGATGAAGGAATTAACGATGGAGACTTATTGATTGTTGATCGTTCTAAAAATCCCAAAAACAATGATATTGTTATCGGAATCTTGAATGGAGAATTCACTGTTAAAAAAATTGAAAAAATCAAAAATAAATTATTTTTAGTACCAGCAAACCAAAATTTTCAAAGAATCGAAATCAATTCCGAAATGGATTTTTCAGTATGGGGAGTAGTGACTTATGTCATCCACAAAACCCGATAATCTTATTGCCATTATTGATTGCAATAACTTTTATGTTTCTTGTGAAAGAATTTTTAATCCTAAGCTTTTCAATAAACCAACTGTTGTTCTATCCAATAATGACGGGTGTGTTATTGCACGTTCTCAAGAAGTGAAAGAATTAGGAATCCCTATGGGAATCCCAATTTTCAAAATACAACACTTGGTAGAAATCCATGATATTCAAGTCTACTCTTCAAATTTTTCTCTATATGGAGATATTTCACGACGTATTATGCAGATTATTCAAGCAGAAAATCCTTCAGTAGAATTGTATTCGATTGATGAAGCATTTATTACTTTAAATCCACGTTATCGCGATGTAGAATCTTATTGCGAAGACCTCAAAAAACGCATTTTACAATGGACCGGGATTCCAGTTTCTATTGGCGTAGGAAAAACTAAGACTTTAGCTAAAATAGCTAATCATTTGGCTAAAAAATTATATCCGGATAAAGGTGTCTGTATATTAGATGAAATCAATACAGAAGAGTTATTGCAGAGAGTAAAAGTGGAAGATATTTGGGGTGTAGGGAGACAAAAAACTAAATTCTTGAAGTTAAATGGAATTTTCAGTGCTTTAGATTTGAAACGTGCTAATCCTTTTTGGGTACAAAAACATATGACCATTATTAGTCGGCATACTGTCGATGAGTTAAATGGTATTCCTAAAATAGAATTAGAAGATGACTTTGTATCTAAAAAAACTATTTCAACTTCTCGATCATTTCGTAAGAATATTAGCAGTTTATCTGTTTTAGAGAATGCGGTTAGCTCACATGCAGCACGAGCTGCTGAAAAACTACGTACACAAAAGGGCTATATTACCTCATTAGGAGTCTATGTTTCTACCAATCGTTTTCGCGATGATTTACCGCAATATCGCCAATTTATCACTGTTAATTTTCCTTTGGCTATTAATGACACAGCAGGGATTATTCAAGCAGCAATTCAAGGATTGCATGCTATTTTTATTCCAGAATTGGAATACAAGAAATGTGGAGTAATCCTGAATAATATTATTCGTGATAATCAGGTTCAAGAATCGTTGTTTCATAGTAGGAGAAATAAAGAAGAACTATTGAGTTCTTCTATTGATACTATCAATAAAGCATATGGTCTCAATACGATCAAATATGCTATCCAAGGCTCTCCAGAATCCTGGTCTATTAAGAGAGAAAAATTATCGCAGTCATATACCACCAATTGGAATGATCTTTTATCCATTAATCTTGAGCCATGAACAGTAAAATATTAGTTGGATCTCAAAACCCAGTAAAAATCAATGCAACACGGTTAGCATTTGAACATTATTTCACTTCTTTTACTATTGAAGGAAAATCATCTTCATCTGGGGTCAATGATCAACCACTAAGTAGCGAAGAGACGCTTACCGGAGCAAAAAACCGAGTGAAAAATATCTTACAGTTTCCAGCAGAGTATTACGTAGGAATTGAAGGGGGAGTAGAAAAAAGAAATCAAGATTATGAAGCCTTTGCTTGGATAGTGATTCAAGATACTAATGGAAAACAAGGGATTTCCAAAACAGCAAGTTTTACCCTACCTAAAAAAGTCAGTAAGTTGATCGATCAAGGGTTGGAATTAGGTGAAGCAGATGATCAAGTTTTTCAGCGCCAAAACTCTAAACAACAGAATGGAGCAGTTGGTCTTTTAACGCAAGATATCATTACTAGAACAAGTTATTATCAAGAAGCTATTGTTTTAGCTTTAGTTCCATTTATTAATTCCGAACTCTATTAGAATTTTGTATATTTCCGCATGTTAAAAATCCTCAATGAACTTCGCACTAATACTCGAGAAAATGGGTTAAAATACGCAATTAAAGCAATGTTCCAACAATATGGTTGGAAAATTGGTGTAGCTATTTTTCTCTATTATCTAATTCGAGATGTCACCCTATATATAATCATTCCTTATTTTGTTTTTAAAGGATTGATGCAGTAAATCAATTGTAGCCTGATTTAAAAGATGTTTCTTCAAATCTTTTAAGACTTGAAAATAAAATAAGAATTTATCTTTTTTTGTATTTATAATCACACCAATGTATTTATGGTATTCAATTATTTTACTTATCATAGCCAACACTATTTCTTGGTTTCAGTTACATAGTCAGTTTGTTTGGAAAGAGGTATGGTTTTGGAATAATCCTTGGACAACAGCTTTAGTCGGGTTTCCAGTTGGAGTAATGTATTTTTATGCCACTAAGTTTTCATTTCTTCATTTTGGATTTACTTGGAATTTCCGAATGGTTGGTTTTGGAGTAGGTACAATAATTTTTGGAATAATGAGCTGGTCAATGTTAAAAGAAATTCCTACTCTTAAAACAGTAATTTGTATTTTGTTAGCCTTAGCAATTATTTTAATTCAAATTTCGAATGTCTGGGATAAATAATCTTACTGTGCAATCTAGTATTCGGTAAGAATTTTTTTATTCTGAAATCAAATTAGCAGTTGTCGAAATGTTAAAATCCACTTTAATCATATCTCTAATTACTTTATCCATTGACGTTTGCGTATTCGCAACAATTTTATTCCAGAAAGTTGAAGGGTCATCTAAATAACGTTCAGCACGATATTGTACGCCATAAAGTAATCGATCAAACTCCAAAGAACCAGTTGCCGTTTTTATTTTCGAATCTAAATCCAATATAGCTTCAAAAGAAATAGGGTGAGTTTGATTTTTAATTGTTAAATCACCCTCAACTAACATCTTATATTTTTTTTCCTCAACCTTATCGAGAATTGAAGATTGTTTGATGACTAATTTGGCCGTCGGATATTTTTCAACATCGAAAAAATCCTGACTTCGAAGGTGTCCTTCTAATCGATCTTTGGATCCACCGCTTAAATCAGTATTGACGAGAGTGCGCAAATTAACCACAAATGTGCCGTTTATGCTCTTATTTGAGTTGATAAATAAGGTTCCTTGTTGAAACTTTAAAGTTCCATAATGCTCTTTATTAGTTATTTTTAATCCACCATTCCATTCCAGAGAACTTTTGGAGGTATCAAGCATAATTCTAGAGGAAATACCTGAAGTATTCACAGTGCGGGGTTCTTTGGGTTTTAACTCGGTTTTTGGTTTCAAAGTTTCTTGGGAGAAAGCCAGTCCTGCCAAAATAAACAATGCTACTATAATTCGTTCCATAAAAGTCCTTATTTACTTTTGTTAATTTTACTAATAATTTGCCTTTGAAAATACTATACTTCATAGTAATCATTCAATTAAATTTGAATATTCTGGAGGCGTGGCAGAGCGGTTGAATGCACTGGTCTTGAAAACCAGCAAGGGTGAAAGCCCTTCAGAGGTTCGAATCCTCTCGCCTCCGCATGAATTATCCGATTGTTCGATTTGCTCCTAGTCCAACAGGTTATCTTCATATAGGAGGAGCAAGAACCGCTTTATTCAATTGGTTATTTGCAAAAAAACATCAAGGTAAATTTCTTCTCCGTATTGAAGATACAGATTTAGAACGTTCTGAGAGGCTTTATATTGATCAGATTATAAGCGCTTTAGATTGGCTTGGATTAAACCATGATGGGAACTACATATTACAATCTAATAATCTATCCAATCACCACGCAGTATTAAATCAATTATTAAATCAAGGTAAAGCCTATCGTTGTTTTTATACAAAAGAAGAATTAGATCAGTTGCGATTGGAATCAGAAAAAGCTAAAAAACCTTTCAGAGTTCCAACAACATACCGAGATATTTCTCAGGAAGAAGTCAACAAACATTTGCAGGACCAAAAAGAATTTACTATCCGACTGAAAGTCCCAGAAGGCAAAACTTGTTTTGAAGACCTAGTTTACGGGAATATTACAGTGCAAAACAGAGAAATTGATGATTTTATCTTAGCACGATCTGATGGATCACCAACTTATAATTTTGTGGTCACAATCGATGATGCGGATATGAAAATTACGCATGTTATTCGTGGAGATGATCATTTAGCAAATACCCCTAAACAAATTCTGATTTATGAAGCGTTAGATTTGCCTATTCCGACGTTTGCTCATCTTCCTATGATTCTAGGATCAGATGGTAAGAGATTGAGTAAAAGACATGCAGCAACGAACGTTCAAGAGTACAAAGAGAAGGGTTATCAACCCAAGTCGATTATCAATTATCTATCTCTTTTAGGATGGAATCCTGATTCTGATGATGAAATTTTTTCTATTAATGAAATCATCGAAAAATTCGAATTAAATCAAGTTCAAAAAAAACCAGCAATTTTTGATGAAAAAAAATTAAACTGGATTTCGGGCCAACATTTACAAAAATCATCGCTCAGAGAACTAACGAGCGCTATTAAGGATTTAGATTTTACTTGGGCAGAAAATCACTCTGAAGGTTTTATCAAAGATTTAGTGCTTCTTCTTCAAGAGCGTTCAAAAAATATTCAAGATATTATAGAGTTAGGGAAGATTATTGTATCTAATCCATCCTACTCTAAAGAAGATTTACATAAAATTTTTATAGACAATAATTTTGAAATAATTGAAAATTTTACTACGGGCTTAAGTTTTGATGAATTTACTGCCTCAAATATTGAAGAGCTCATTAATAACATTTCAATTCAAAATGAAGTATCTTTGGGAGTAGTTATGAAGCAAATTCGCTTTGCGATTACTGGAATTACCTATGGCCCCAGCTTAGTAGAAATTCTATTGTTGTTAGGTCAAGATTCCGTCATTAGTCGTCTGAAAAATTTTGTTAAGCAATTGACTTAAAATTTGTTTCTTTTAGTTTTAGTTTTCGTAAATATTTCTTTACATTTCGGTATGCGCCCGTAGCTCAATTGGATAGAGCGTCTGGCTACGGACCAGAAGGTTGTGGGTTCAAGTCCTTCCGGGCGTACATCTCAATGTCAGATTTACTTACAAATAACCACGAATTTTGGATGAAAAAGGCTTTAAAATTAGCCTTTGACGCTTCCAAGGTCAATGAAGTGCCAATTGGATGTGTAATTGTCTATGATAACAAGATTATAGGGCAAGGATACAATCAATGTGAATCTTTAAATGATAGTACAGCACATGCTGAAATATTGGCTATAACTTCAGCTTCGAATACATTAGGAGATTGGCGATTAAATCAATGTTCTCTTTATGTAACTAAAGAACCATGCATTATGTGCGCTGGAGCGATTGTTAACAGTAGAATCGATTCAGTCTTTTTTGGTTGCTATGATGAAGATTTAGGCGCATGTGGTTCAAAGTTTGATATTTGTGGAAATCCTTCTTTAAAAACACCTCTTACAGTGCGTGGTAATATTTTAGGAGTGGAAAGTTTAGCTTTAATTCGAAATCATTTTCACGAATTGCGTAAGCGACAACAACAAATCTAAAGAATTTTAGGAATTATTGCTTTTCGATCTTGAGGATAATCTTCCTTAAATTTTTCTAAGTACCATTGATGTCCTTTGATTGCTCGAGGCCCTAAATTAGCAATCGTCCAAATAGCAAAAGATAAACCTGCTAAAGACCAAGTCATTATTGCAAAAGCAATCCACTCTAATATTTCACCAAAATAATTAGGGAAAGAAATATAGCGATACATGAATCCTTGAGGAATATGATATCCCTTCCTTGAAGCGCGAATTCGGAGGAGAATATTATCCGATTTTATGTTAATGATTGATCCAATGATAAAAAGAATACATCCAAAGATAAAATTTGGCTCGAAGATGTAATCATTTGGGTATTCACGAATGGATCCTAAATAAAATCCATTGAAAAATCCATTGAAGATATTAAAGATAAATGCAAAAATAGCAATAGAGATAGGCATCGGCTGGGGATTAATTTGTCGTAAAGGATATATAACGCTCCGATTCAAATAATGGAGGGTCCACAAAGCTAAAAATATCCAGGTTGCAGTACTTTTATTGGTATGTCCGCTTAAAGCAAAATACAATAAGCCAATCGGAGAGATGATCTCCATGATAAACCAACCGAATTTTGCATTGATTAATTTTCCCCATCGACTATTGGTAAACTTTCCATAGGGAGCAGGAATTTTCAATAAGGTTAAAAGTGTTAGGAAAGCAATTGCTATCCAAAGAATCAAAGAAGTATGATAAATCTCTATCATAGATAATAATTTATGAGTAAAATTAGAATTGTAAAATCTTTCAATGAATAATCAAAAAAATATTGTTATTACTGGAGCAACAGATGGGATTGGTTTAGCTGCCGCAGTATCAATTGCTCGCAAAGGATATCGCATAGGATTAGTCGGTAGAAATCCTCAAAAAGGAGCGATTGCACGAGAAAAAATAATTTCTTTAACCGGCAATGATCAACTTGATTTTTTTGAGGCAGACTTAAGCTCAATAAAAAATGTCAAATCATTAGCTGAGCAAATTAAAACAAAATACTCATCTTTAGATGTGTTATTGAATAATGCAGGAGGAGCCAACCGATACAAGATAATAACAGAGGAAGGGTTGGAAAAAACTTTTGCAACTAATCAAATGAATTATTTTGTTTTAACTACTGAACTTCTAGGGTTATTATCTGAAACTTCTGGCTCCAGAATTGTCAATGTTGCATCAAATGCTCACATTGGTTCTACTATTGATTATTCTAATATTAATGCCGAGAAAGAATATTCATTTTGGAAGGCATATTGTGTATCAAAACTGATGAATTTGATGTTCACTTATCGTTTAGCTTCAATTCAAGATAAAGTTTCTGTCAATGCTTTGCATCCTGGGTTTGTTGATACAAATATTGCTGGAAATGAAGGAAATTTTATTAAGAAGATTGTCAAATTTGGATCTAAAATTTTTGCACGCTCAGTGGAAGATGGCGCTGATTCAAGTATTTACTTATCTACAAGTGACGAAGTAGAAGGAGTTTCTGGTCAGTATTATTTCAAATGCAAACCTATTAAATCTTCAAAAATCTCTTATGATCAAAATCAATGGGATCAAATCTGGTCTATATGTGAAGATTTCAAGCAGAATATTCTAAATGAAAAATAGAATTTTGCACAGAAAAGATTATAAATTTTTTACTACTGCTCAAACTCGCTGGAGAGATAGCGATGTGTTAGGTCATATCAATCACACGGTTTATTTATCCTTATTAGAAACTAAGTCGAGAGAGTTTATGGATTTTATCTATGGAGGAGAAGATCAACATGATTACCACAAAGACCTTGACGCTACCAATGGAGGTCTTCTTGCCTCAATGCAAGTTCGATACATCAAACAAGTTCATCATCCAGCACAACTTGATATTGGAAGTCGCATCACTAGAATTGGAACCAAAAGTTATGATATTCATCATGGAATTTTTGTGCAAGGAGAAGATGAACCTTCCTTTCAATCTATCCATACTTTTGTTAAATTTGACTTCAAAAAACAGCAATCAATACCAGTAGATAAAGTGCTGAGTGATTTTTTAGAAGAATTAGTATGATTACATTATTATCACCATCAAAAACTTTAAACTTTAATACTCAAAGTATTACCCCTGATTTTACCCAATGTGATTTTCTAGAAAGTGCTGCAGAATTAGTGCAACACGCTAAAAAATTATCATCCAAAGATTTGCAAGACCTTATGAAAATCAGTACCAAGATTGCAGATTTAAACAAAGAACGATTTGATCGATGGTCTCTTCCGTTTAATTCTGACAATGCAAAACAAGCTATCTTAGCATTTGATGGCGGGGTGTATGCGGGATTAGATGCCAATAACTCTTTAAGTCAAACAGATTTAAATTTTGCTCAAAACCATCTTCGAATCCTTTCCGGATTGTATGGTCTTTTAAAACCGTTAGATTTAATTCAACCGTATCGTTTAGAAATGGGAATTTCATTGAAAAATTCTAAAGGTGAAAATTTATATTCATTCTGGAAAAAACGAATTACAGATTCGTTGAATCAAACCTTGAAAAATCATCAACATTCTTTAATCATCAATTGTGCTTCTAATGAATATTTTCATGCAATAGATTCTGATAAAGTTAAAGGTCAGATTATCAATGTTACTTTTAAAGAAAAGAGAGATGGTCAATTGAAATTTATTTCCTTTAATGCCAAAAAAGCGCGCGGAATGTTTTCAAATTATATTATAAAGAATCGTATTGATTTAGTAGAAGGGTTAAAAGATTTTGCTTATGATAATTATAAGTTTGATTTAAACTTATCAACCAAAGATGATTTAGTATTTATTCGATAAGAGGTGAAAAAATGAAAAAGCTATTTTTATACGTATTTCTTGTCTTATTTACCGTGTCTTGTGGAGGTAATCAAAAGACTTTTTCGAGACAGATTGGAGAAAATTCTCAAAGTTTCTATCAAGGAATGGAAGCTTTACACAACTTTATGTTAGAAGATGCCCGTAGTTACTTTTCTGATGTTCTTGAAAAAAATTCTAATTGCGCTTCTTGTTTCTTAAATCTTTCATTTGCTGAACCCGACGTAGTTTTAAAAAGAACATATTTAAATCAAGCTTTAAGCCTGTCAAAAGAGAATCATCCCGAAACACTATTGATACAAAATGCCTTAAAGGCACTTGATAATACTGATTTATCCCCATTTAACGGTTATCTAGAGCTGTACAAAAACCATCCCGTAGATTCCTACCTCGCAGCGGGGGCATTCAGGGAATTACAGTCACAGGATAAACTACAGCAAGGAAGAAATCTTTTAAAGCAAGCTGCTGAAAGAACTCAAAAAGGACATCTCTATAATTTGTTAGCTTATTCTTATATGTGGTATTTTGATCCGATAACCCCTGAATATGACCAAGCTTTGGAATATTTAGATCAATATATTTCTTTAGAACCTATGCTAGCAAACCCATTAGACTCAAAAGGGGAATTTTATCTGAATAAAGGGGATTATGAGACCGCAATTCGTTATTATACCCAAGCTTCGATACAAGATCCAAATTTTGAGTGGTCAAAAAAGAATATTTCTTTAGCAAAATATCAACAATTATTTTTGGATGGAAATGCAAAAACTATGAGTTTTTCATCTGAAAATGCTGAGGCTTTAAACCTGTTCAATGTAGGTCGATGGAATCTGTACAATTTGAATTGGGAGCAGGCTGTGTCAGATTTTTCTAACGCGATAGATTTAGACTCTTCGTTTGCATTTGCCTATCTCCTACGAGCAAGAACTAATCAGTTTTTGAATAAAGAAGAGAGAATTGTTCAAGATGATTTAGATGCAGCTCAAAGTTTTTCAATCAATGCCTCTCTCGAAGAAAGAAATTTGATTGATGCTTTTATAAGTGACAATACCGTTGGATCAACCAATTTTATTCAACTTAGTGAAGAGCTATCTGATAAGTACTCTGATGATTCCTTATTAGCTTTTGAAACAGTGTTTGCTACTATTTCGATTGTTGGTCCCGAAAGAGTTCTAGAACGTGCAAAATCTCTCTATGAAATGAATCCTTCATTTACTCCTTCATTAAACATGATTGGATATGCCTATTTACGCTTGGAAAATTATGATAAGGCCAAAAATGCTTTCCAGGAACAAATTCGAAGCGCTCCTGCATCTGCTAATCCATATGATTCAATGGGAGACTACTATTTAGCAGTAAAAAATGATGAATTAGCTTTTGAATATTTTAAACACTCCTCCAAATTAGGGTTATCAGCCAGCTCATTAAAAGCAGATAGTTTGGAAGTTTTGATTAATAAAAAGAATGAAAAATTTTAGATGAGCACAGAGAATTATCAAATTTTAGCCTTAAAATGGAGGCCAAAAAAACTGAATGATTTAATTGGTCAAGATCACATTTCTCAGACTTTAATCAGAGCTTTTGAATTGAATCGAATTCCTCAAGCATTTTTGTTTTCTGGTCCACGTGGAGTTGGAAAAACAACCAGTGCAAGATTGGTAGCTTTAGCTTTAAATGCTGAAGATAAGCCGACTGTGAACTACAATCTTGAAAGTGAAAGAGTTCAAGAAATTATAGATGGAAGTTCCTTAGATGTCATTGAAATTGATGGTGCTTCTAATCGTGGGATAGATGAAATCAGAGAATTAAGAGATTCCATTAATTTTATGCCTGTTAATTCTTCTTATAAAGTCATCATTATTGATGAAGTCCATATGTTAACCACACAAGCTTTTAATGCGTTATTAAAAACCATTGAGGAACCTCCCCAACATGTAAAATTTATTTTTGCTACAACGGATGTACATAAGGTGCCACAAACAATCATTTCTCGTTGTCAACGTTATGATTTTTTACCTTTAACTCTATCAGATATTGTCAATCGTTTAAATTTTATTTTAAAAGAAGAAAAAATTTCGTTTGAACAAGAAATTTTAGAGATGATAGCGCAAAAATCTGAAGGAAGTATGAGAGATGCTCTTGGATTTTTAGATCAAGTACTGGTCTATCAAAATAGCGATATTTCCAAGGAAGAAATCCAGAATATTTTAGGAATAGTTTCAGATGTTATTCTGTTCGAAATCTCAGATAGTATTCATGCAAAAAATGCTGAAAAATTGCTAGCAATTCTGGATCAAATTGAACACTCCGGTTTTTCAATTGAAGAAGTATTGAAAAATCTGATTATACATTTTAAGAATCTTATTTTGATCAATTTAAGTCAAACCACTCTTTTACGAGTCTCTCCAGAGATTCTGAAGAAATATCAAGCAGTTTCTTATAGTTGGAGTGATCGTGATTTGATTCGAATTTCTAATATCTTATCAAATCTATATGCGGAGTTAAAACACTATGCAGATCAATTTGTTATTTTCCAACTAACGATTCTTAAGCTTATTCATTTTGATAAAACCATTGATATTCAGACCTTACTTTCCAATGCATCCGAGGAATCACCAGTTGTAAAGGCTCCAGAATCTGTAGTCAATGAGAAAGCAGCTCCCAGCGTTGCTTCGCAATCAAGTACTTTAAATTTTGATGAAATTCAGGAAAATTGGACAAAAATTTTACAATTGGTTCGCTCAAAAAGAGCATCCATCGCGGCTTTGCTAACGGATTGTATTTTGTCAGAATTCGATGGTACGACCTTGAAAATTATTAGTTATGATCGATCAGATTTTAATAAAAGATTATTAGAAGGCTCAATTCCCTTAATTGAACAGTCATTTAAGGATAGTCTTAATATGGAAATATCTGTAGAAATTGTGATAGACACTTCCGTAGAAAAGATTGAAGAATCAAAGAATTTGTCTATTGAGGAAGATGATGCCATAAGTATTTTTGGAGGAAAGGAGCAATAATGTTTGGAAATATGAAAGAAATGTTGAAGCAGGCTCAACAAATGAAATCTCAAATGAAGCAAGTTAAGAAAGAGTTGGAAAGAATAGAGGTGGAAGGCTCTGCTGCAAATAATCAATGCAAAGTAATAATGACTGGAGATATGAAGGTCACGAATGTAAAAATTAATGAAACACTCTTAAGCAGTGAGGCTTATGTCATTGAAAATGCTATCAAAGTCGCCACCAACAAAGCTTTAGAAGAAGCAAAAGATGTTTCAGCAAAAAAACTAAAAGGTATTACCGGTGGATTAACGGATGGATTGCCAGGGTTTTAAAAATGGCCGGAATTTCTAACTACATTGAAGAATTAATCAATCAATTGACCAAATTTCCTGGTATTGGAAGAAAAGGAGCCGAGCGGATGGTTTATCATATGATACGTTCTGGAAAAGATTTCCCGAAAGAGTTAATCAATGCCGTCAGTCAAATCCACGAACATATCACCAGCTGTGATCAATGCGGGATGATTTATGTTACCGATGAGAATTGCTCCTGTTCTGAAGATCGAAATACTAAAAGTTTATGCATCGTTGAAGATATTGAAGATGCGATTCGCATTGAGAATACCAAAGCTTTTGATGGTCTTTATCATGTTTTAGGAGGATCAATTGCCCCATTAGATGGAATTGGTCCAGCTGACTTATCGTTTGATCGTTTAATGGAGAGATTAGAAGGAATTGAGGAAGTGATTATTGCTACTAATCCAAGTAATAGCGGTAATACGACTGCTCAGTACATTGAAAAATTGTTGGAAGACAAAGATGTCAGTATTTCTCGTTTAGCTACTGGACTTCCTGTTGGGAGTAGTTTAGAGTACATTGATGACAAAACCCTAGTTAGTTCCATTAATGGGAGAGTAAAAATTAAATAATGTATTATTTTTTAAACTTTCTTACGTATTCAAGAATCATTTTAACACCCATTCTAGTGTGGTTGATACTTATTGACCAATACAGTGCTGCAGGGTTTGTATTTATTTACTGTAGTTTGAGCGATTTATTTGATGGAAAAATTGCACGAAAGTACAATTTAGTATCTGAAAAAGGGAATTATTTAGATCCTTTAGCAGATAAAATACTGATGATTGGTACTCTAACTAGTCTTTTAATGCAAGGATTAGTGGTATTTTGGGCATATTTCATCATTATTGGAAGAGATATCCTAATTACCTTTTATCGCAACTATATGCTAGCAAAAAATACGCCTTTAGTTACCTCAAAATTTGGAAAGTGGAAAACAGCTAGTCAACATAT
>sequence20
GTAGAATTAATCGATGAAGGAGCATTGTCTTGAATTTCTTTCATTTTTTCATCAACATAACTTGCAACCTCTCGAATATATTCTTCATTGGAAGAAGCTCTTAGAGCATACTCTTGGCCAAAAATCCATACTTTAACTAGTTTTTTATCTTCCATTGCAATCCTTAGCTATCGCGTAAAATGCCTTTAAATTTACTTGATATTATTTTTATAACGTCATTTATTATTGGATTTACATCATTATCTTCAAGTGTTTTATTATTGCTCTGAAATGTTAATTTAAATAACACATCTTGATCATTATCTTGCTTTGATTTTTTAAAAATATCCACCGGCCTAACATCTATTAGTATAGATTGATCGGTCGAATGGATAGCTTTAACAACCTCTCCAATCACAATTGAGGAACTCAACTTAAAGTTCAAGTCACGAATGACTTTAGGATAAGCTGAAACTTCATGATATTTAACAGCATAACTTGCATAAAGATTAAAAACCTGTGGATTAATATCCATTAAATGCACGGGATACTTATGAGCTATATCTATTTTCTTTAAAAAAGAAGGTTTAAGGGTTCCTAAGGATGCAATACAGTCGCCTTTACTATCCACTACATTTTGAAAAGAATCTAAATAAGGATGTTCTTCAGAGATAAATTTAAGTTTAGCGGATAAGAAATTGTCATTAATATTTTCTAATATTCCTTTTAAATAGTAATACGATAGAGGAATATTTTTAAAATGGACATTATTTTCCTGCCAATTTCCGTGAATCAAACACGAAAAAGAAAATTGTTGGTTGATTCCTGATAATCCCTCACCCTCTTTTGAAAAGATAGTCCCATATTCATAGAATTGAACATCGGTATTCCCATGTTTAACATTAAAATCCAAATTATTTAACAATCCTTGATGTAGAGTAGTTCTTAGTGTATTCATACGCTCTGAAGTAGGATTAAGTACTTCTACTGGCTTAATACCAAAAGCATTCACCTCAGAAAGATCTTGTAATGAATTATTATAACATTGATTAAACCCTAAGCTGGAAAGGTGCTTTTTGAGTTTAGAAATAAAGAATTCCTCATCTTTGGTATTAATTAAATTGGTTTGAAAAGTAAAATCAGATAAGATATTCTCATATCCAATTGATCGCAACACTTCCTCAAAAAGGTCTGCTTCTTGTTCAATATCACCTCGATAAGTAGGAATAAGACAACTCCAACCATTTTTTGTTTCTTTTGGATTAAAGTCTAACTGTTTTAAAAGTGTCGTAATCTCTTGTTTTGGAAAATGGACACCCATGGTTGAAATTAAGTTAGATTCATTTAAAGATAGTTTTTTCGATGATAAATCAACGACACATGAATCAGTAATTTGAGAGGACAACTTTCCTCCGGCTACTTCTTCAATTAACTGAATAATAATGAGTAAAGCTTCCATAGAAGTATTGGGATCAATTCCTCGTTCAAATCTTCTGGAGGCTTCGGAAAGCAAACCTAGTTTTTTAGAACCTTTTCTGATGACTACTGGATCAAAATAGGCACTCTCAATCAGAACTTCTGTTGTCGAATCAGTCACTGCACTATTATACCCACCGATGATTCCAGCTAAAGCAACAGTTTCTTTGGAATCAGTAATAACTAAATGTTCTTTTGATAATTCATAGGTTTCCTCATCTAAAGCGTGATATTTTTCTCTATCTTTAGCCCATTGAACAGCTACAGTTCGTTTTTTGAACGTAGAAAAATCAAAAATATGAGTCGGTTGACCAATTTCTAATAAAATAAAATTAGAGATATCGACTAAATTATTGATACTTTTTTGACCGACTGATTTTAAATAGTTCTTTAACCAATCTGGAGATGGTCCGACTTTGACGTCTTTCATCACAGCGCCTATGTAACGGGTACAACCTCCTTTAGCATCTAAATCAATAGCGATTTTTTCTAATGCGGTATTTTGTTTCGGTTTTTTTAATGAAAAAGGGATTTTTAAGCGTTGATTGGTCATAGCGGCAATTTCTCGGGCAATTCCTCTATGACTAAGGGCAAAACCTTTATCAGGAGTAATTTCAACTTCTATCGCATCAAATAATGGCCCTAATACCTTTCCAATAGGAGTTCCCACTTTGGTTTTATTATCTAAAACTAAGATTCCCTCATGCTCTTCTGAAATTCCTAATTCTCTTTCTGAACAAATCATCCCATAGCTTTCAATTCCTCGAATTTTAGCCTTCCCAATTTTAAAATCACCTGGGAGAACGGCTCCCACTTTAGCAAAAACAATTTTTTGATGAACTGCAACATTGGGAGCTCCGCAAATCACATCAAATTCTGAAGACCCATCCGAAACTTTACATAAGCTTAACTTATCAGCATCTGGATGCTTCTGGCATGAAATGACTTGACCCACAATCACGTGATTGAAAGTCGAGAAATCTGTTGCAACTTCTGATTCAAATCCTCGCATAGTTAATCGATCAGCGAGTTCGGAGGCTGTCCAAGAAAAATCAACGTGTCGTTTAAGCCAAGATAAAGAAATTTTCATTAAAATTGCTCCAAAAATCGTTTGTCATTTTGATAAAATAGACGGATATCGCTAATTCCATACTTAATCATAGCAATTCTTTCGATTCCCATTCCAAAAGCATACCCCTTCGCATTTGATGGATAACCCACGTTTTCAAAAACTTTAGGATTCACCATTCCACAGCCCATTATTTCCATCCATTGTTGTAACTTATCGTTCCAAATATCAACTTCAGCGCTGGGTTCAGTAAAAGGAAAATAACTAGGTCTGAAGCGCATTTTAGTATTCGATCCAAACATTTCTGCGATAAAATACTCTATCGTCCCTTTCATTTGAGCAAAAGAAGAGAATTCATTAACTACCAAACCTTCTACCTGATTAAATAAACAAAAACTTTTATAACTCACCGCTTCATTTCGAAATACCCGACCAACACAAATATGTCTTAGTGGAGGTTGTTGGTTTTCCATTAAATGAATTTGTACATTGGATGTATGGGTTCTTAAAACTGTTTCAGGATCGATATAATACGTATCTTGCATATCACGAGCTGGATGATGCTTTGGGACATTAAGTGCTTCAAAATTATGGTATTCATCATCGATTTCTGGACCATAAGCAATGGAAAAACCAATGGATTGAAAAATCGATTTAATCTGAGAAGTTATTTCTTCTAGAGGATGAATAGAACCACGTTTTAATTCAATTCCCGGTAGAGATAAATCGATATTAGATTGAACGTTATTGGTTTGAAAATTTGCTTGTTTTTGCTCAATCGCTAGAGTGATATCACTTTTGAGGATATTGATTGATTTTCCATACTTTGGTTTTTCTGAGCCTGGGAGCTGATTGAACATTTCAAATAAATCATTCACCAAACCTTTCCTACCTAAAAATTTGATGCGAATTTCTTCTAATGCATTCGCCGATGCAATGGTTGGAAATTCTTTATTGAATGATGTCTGGATATCTTTTATAGTTTTATCTATTGACATCGCAGTCCCTTATGTAATTTATTTTTGTAAGTATTTTGTAAGGTCTTCAAAAATAGATGGATTATTCACTGCTAAATCAGCTAAAATCTTACGATCTAAATTGACACCTTTCTCCTTTAATAAATGTACAAATTTTGAATAGGATAAACCATTTAATCTTGAAGCAGCGTTAATACGAATAATCCATAGACGTCTAAACTGACGTTTTTTCTGTCTACGATCACGATACGCATACAATCCAGCTTTAACTACAGCATCTTTTGCTGCTTTAAAATTTCGACTTCTCGCACCAAAATAACCGCTCGCAAGTTTAATAATCTTACGATGTCTGCGATGTCTTGGTACTGAACTATTTGATCTTGGCATCTTAACTTCCCGCTTTCGCCATCATTTTTTTCATGCGTTTTTCAAAAGATGGAGCAACTACAGTAGCTTTCTTTGCGTCACGTTTAACGTCGCTATCTCGACGAATTAACATGTGACTATGCCCTGCTTTATTACGTTTCAGTTTCCCTGAACCGGTTACTTTAAATCTTTTAGATACACTTTTTCTTGTTTTTTGTTTTGGCATTTTTACCTTTCTATTTCGGGGCTAATATTATTGATTTCTTTCGACCTGTCAAAGGAGAATCTTTTTCTAATTTTGCCACCTCACCTAAATCAGTTAAAATACGAGATAAAAGATCGTCGCCAAGATCTTGTCTTGACATTTCTCTTCCTCGGTACATTAAGGTTAATTTAAGCTTAAAACCATCTTCTAAAAACTTTTTTCCCATTTTTAATTTATTATCTAAATCATGTTCACCAATATTAGGACGCATTCTCAACTCCTTGACTTTAATGACATGTTGATTTTTTTTACTTTGTTGAGCCTTCTTCTTCTCTTCATATAAAAATTTGCCAAAATCCATCACCTTACAAACGGGAGGTTTGGCGTTTGGTGAAATTTCGACAAGATCCAAATTAGAGTCCTGGGCAATTTGAAGGGCTTGGGGAACAGATACAATGCCCACTAATTGTTTATCTGCTCCGATTAAACGAACTTCTTTGGCATAAATTTTTTCGTTTATTCTAATCTTTTGGTTTTTACTGATGATTAACTCTCCTTTCTTTGATTTCGCTATTGACATCTTTAATGAATGCTTTCACTGAAATCATTTGTTGTTCTTTTATAAATCTTCGACGAACCGTCACGGATTGGTCTTCCGCTTCCTTTTCGCCAATTATTAACATGATATTGATTTTTTCTAATTCAGCATCACGAATTTTAGAGCCAATTTTTTCTGAACGTAAATCAGCTTTTACTCGGATACTATTCACTTTTAATTCTTGAATAATTGATTCTGCATAGTCGTTATATTTATCGGAGACTGGTAATACTGCTACTTGCTGAGGGGCAAGCCATAGAGGGAAATTTCCTCCAAAATGCTCTATTAAAAAACCAATAAAACGTTCATGAGTTCCTAAGGGAGCTCTATGAATACATAATGGAGTTCTAGATTCTCCATTCATATCTGTATAATGCAGAGCAAAACGCTCTGGAACTGCAAAATCAACTTGATTAGTTGCTAAAGTGAATTCTCTTCCAATAGCACTCCAAACTTGAACATCAATTTTTGGGCCATAAAAAGCAGCATCTCCAACAGATTCAACAAAATTAAGCTTAGCATCTTTTAAAGCGTTTCGAACATCGTTCTCAGTTTTTATCCATAATTCAGCATTATCAATGAACTTATTTCCTAATTCTTTTGGATCGTGTAGACTTAAACGCATCTGATATTTTTCAATTCCAAAGATTTTAAAATATTCCAAATACATGTTGCACACGGCTAAAAATTCATCTTTAAACTGCTCTTCAGTGCAATAAATATGACCATCATTCATTTGCATACTTCGAACACGCATTAATCCAAATAATTCTCCAGATTTTTCATATCGATAGCAGGTTCCATATTCTGCTAAACGCAAAGGTAAATCACGGTAACTTTTTGGACTACTAGCAAAAATTTTGTGGTGATGAGGACAATTCATCGGTTTGATATAATAATTAGTACCATCAACATCCATGGCAGGATACATGCTTGAAACATAATGCTTTAAATGACCAGATTTCTCATATAAATCGCCTTTAGTTAAATGAGGTGTTCGAACTCGATCATATCCTGCTAAAGATTCTTTTTCTTTGGCTAAAGATTCTAATTCTTCAATGATAACTGAACCTTTTGGAGTCCATAATGGCAAGCCTGGTCCTACTTCATCATCATAGAAAAATAAATCCATTTCTTTTCCAATCTTACGATGATCTCTTTTTTTCTGCTCTTCAAGCATGGTTAAATACGCTTTCAAATCTTTTTTATCAGCAAAAGAAGTGCCATAAACGCGTTGAAGCGTTTGATTATTCTCATCCCCTCTCCAATACGCCGCACTTGAAGAAAGGAGTTTAAAATGCTGGATTTGATTGGTATTAGCGATGTGCGGACCTCGACATAAGTCTGTAAAATCACCTTGAATATAAATTTTTAATGTTTCAGTCTCATCAATTGCCTCTATAATTTCAACCTTATAGGTCTCATCCATAGACTGAAATAGAGCAATGGCTTCCTTACGACTAATGACTTGATGAGAAATCGTTAAATTCTCTGAGGTTATTCTTGCCATTTCAGTTTCAATTGAAAGTAAATCCTCTTCCGTAAATGGAGTTTCAACATCGAAATCATAATAAAAGCGATTATCTAAATAGGGACCGATGGTCACTTTTGTTTTAGGAAATAAACGCTTGACTGCTTGAGCCATTAAATGGGCTGTACTGTGCAGCAAAACGCTATGACCATCTTTACTTTTACCATCTAAATATTTTAAAGTACAAGACTGTTTTAATGGAGTGCTTAAATCGGCTAAATGATCATCAATAGTACAAATAATGGCATTAGAAGGAATACCTTTCATTGATTGTTGAATTTCTAAGGGACTGATACCGGAATGAAAGGAATGTTCGCCTATTCCTAAAATATTAACAGATATGTTACTCACAAGCCAAGGTTATCAATTAAAAATAGTCCTAGAGTAAATAAACTGAGCATACTGGCAACACCGGTACGATGTTTACGCACTAAAAGTTGTTCAGCTTCAGTCAAATTTTCTCCATTTAAGTCTGATATCATATTCTGTTCTTGTTTTGCATCCAAATGGCTTGAATAGAATTTATCAAACCAATGTAAGCCTTGAGCGCAATTTAAATCTTTTTCGTCACAATAAACCAAGAAAATTTCATCAGAACTTCCTGGAATTGGTCTAACGGTTTTTGTACCTAATTGCATCAATTCTAATTGATTTTGTAATGCCTCAAATTCAGCAATGTCTTTATTTTCAAAATCAAAATTTTGCAATTCGTTTGCAATATAAGTGAATTGCTCTTTGGAATACAAACTGATAACATGTTGTTGGTTATCTAATGGAAGGATAATTTGGGCTGGAAAAGTTCGTTCTGTATTTAGCCACGGAGTACTCCAAACATAAATATCAGCTACGACGATATTAGAATAAATGTTAACCAAAGATTCATTGCTTCTTAAACCAATTGCTGGGCTCTGTTCATATGAAGAAGAGGCACCTAGGTTTGAACTAAAAATTCCTTGGGAATAAACGATTGAAATCATTCCAAAAAGAAATAATAAGAATCTTTTGTGAGCCATCTGATAAAATATACTATACTTCTTTAGAAAAAGGTATGATTTTGTCTTATTCAAAAGAAATCACTTCTTGTTCATAGGCGAAGCATTCCATCCACTGCTCAAAGTATTCTTCTGCTTTTTGACGATTATACTGGCGCAATAGGACTTGAAAAATATCATAATTCATCTCTGGATAATAAGGTGAAGCAATGTAAATAAAGGTAAAGGTTCCGTCCTTATTCTCTTCATTGGGAATCCAAAAATGTAAGCCATTATAAACTTTAGAATTATATTTTTTAAAAGCAGGTAAAATCACCGTTTGGTTTAACAATTCAAATTCCTCTTTTTTTGAAGGTAAAATATGATTGACCGCAATCATTTTTGAAGATTCATTTAAAGTAGGGCTCGCTTTAATAGCATTATTATTAATTCCACCGAATGATGATGCGCAGCTTGCTAGAAATAAACTAAAGCTTATAATTAGTAATCTCATTTAGAATAGATATTGAGCTTTCACAAATAATTGTCGTTGTGAATGTTTGATATTAGAAAAGATTCCATCTTCAGAACTATAAAGTTCGTTCATGCCTAAATAAATCGCTGAAAAAGCATTAGGTTGATACACAAATAATGGTTCTACAAACCAACTATCTGAAAATTCATTAAACTGAATCTTGGTACGCATTGAAAATTGATTAGTAAATGAATTAGTGAGTTTCACATTCATTAACACTCCTTCAAAATGATCTTCAGCCTTCTCATAAGCTACTCCAAATGAGATTTGAGATAAGTCAGATATTTTATACTCAAAATAATTTGACGCGCCTAAGTATTTTGATTCAACTGGCTGATCCTCAAATTTAATAATAATGTCATCGAGTTTAGCTTCCCAAACGAAAACTAGATTTGAAGAAAATGGTCTGACAAATTGGACTTGCATTTCATTTAATCCGTCAAATTGGATATCTTGATAACTTTCATTTTCTGTTTCCAGAACTATCCCTAGTCTATTTCCATTTCTAAATGCGAAATTATTACTAATTTTTAATTCTTGTTTTAGTGTTTGACCAGAGTAATTATCTTTATGAATATAGGCAACACTATGTCCGCTTAGAATCAATGGACCATCTTCATAAAAAATATCCTTACCTTTTCTGAGCGTTAGATATTTTGTAGCATTATTCGATTCAAATCCATTACTGGTTCTAAATCCAGGAGATCGTAAGCGCAAAGTTGCACCTGTATAATCCGTTCTGGTTCTTTGCATTAAGCTTAATCCTAGAGCATTTCCTTCAATTTTCTCTCCATCAAATGCTGCTGTATATTTATCGAAGAAATACGGATTTTCGTCAAATTTCGTAGAAAAGCCTTCAGGTTCTTTATGTATAGAAGCTACGGCATGTAAAGTAAAATGAAGGTTATTACCTGGATGCTTATGGTAATCAATTCCAAAATTCTGCATGTAACTATCCTCTCCTACAAAAGATCTATTGGAAAAGAAAGTACCAAAACTTCCTCCATTACTATCAAGAGTTTTTGTTCGAATAATCAGATTATCACTTTTTTCCATATTTACTACAGAACTAAACTCTTCAAAAGGCAATAAAACCGGTGAATCTTCATCTAATGCTGCAATGATTCCATAAGAAGTGGTACCAATTTTACCTGTATATTTCAACGCTGAAGAGGGATTATTGATTGTACGCGAATAAAATAAATTTATGTATCCTCTTTCAGCTCCTTGCGTACTAAAGATTTCTGCACCCTCTGTAAAAAATGGTCTTCTCTCTTTAAAATACAATGCATTCACTGAGTTGATATCATTTTGAATATCATCCGATTCAATTTGACTGAAGTCAGGATTAAAAGCAAATTCGATTAAATCTACAGAAGATAAATGGACTTTGGTAAATAAAGAAATCTCGTTATCTGAGGTGCTGGTATTATCTAAGTAATTATCTTGATTTACATATAAAAAAGAAGGAATAAAGTCATAGGAACGTTCTTGTTTAGGTGGAGTTAATCCATTTAGAAAACCTAATTGACAAGTATGGCATTCAATCCCTTCTATTTTTGATGCCCAAGATATCTCTCTTCCGACGTTATCTCCAATATCAAAAAGTCTTCCAAAATTTATTCTCCAAGTTTGAGATTCAGCTAAGGAATAACGTAGAGATGAAAACGGAATTTTAAATTCTAAAATATAATAGTCAGCATAAATTTTTGATGCTACTTCGTAGATAAAGTCTAATGATGAATCAAATCCATATCCACCTATAATTCTTCCATCTACTTGAATACCAGAAGGATTAGCGCCAATAGCAAAGATTAATCCTTCATCACCAAATGCATCGATTTCTATCCATGAACGGTCATCGCGATCTTGCAATTGGTCTCTTTTAGAAATGGAGGTATTCAACTTCCCTTCAGTGAAATAGGATTTAAACGCAAAATAAAGATTGTCAGCATCCATTACACTCCTAACTTCCGTTTTATAGGGAGAAGGTTCACCTTGAAAAGCACCTGTTTGAGTAAAATCCGTAGCTATTTGTGCTGTTTGCCAAAAAACTTCGTCCAAATTACCATCTAAAATAACTTCTGTATCAATAAATTGAGGATTGTATTGAGGTCTCTCTGTCAAATCTTTAAAGGATTGACTAAAAAGAAATGTTGAACTTAAACACAAAATTGAAAGAAAAATTCTCATGAACGCTCCATTAATGTTAAAAAATGCTCAAGAGTATAGTGATTTTAACAGTTATTAGAAAGTTTTTTATGTCCATAAAATAAATTTATTGAGACTAGTTCTCATTTATTATAAAGATAACCCGTAAAGATGTTGGTTTGTCTGGGATTTTTGGCATTTCTATTGGAAGCGAAAACGATTTTAAGACGTTTAGAATCCTTATTATCTACTGCCACTACAGGAAAAGAATCAAAGGTTTCATTAAAAGTAATACGTTGAATCTTCAACGATTCAATATTAATGATATACAATTCGAAGTTACTACCATATGACTGATAATCGTCCCTCCAATCATCCATATTTGATGAAAAAATAATATGTTTTCCATCTGGTAACCAAGATGGAGCCCAATTAGTCGCCTCATTATTGGTAATTTGAATCTTATTTGAACCATCACGATTAGCGATATAAATGTTTAGAGGTACAGATTCAATATATTTTTTTTCTAAATTTTTAGCCCATTGAATCTTTTCTTCTTGCGTTGAAGGATACCATGCACGCCAGACAATCTTGGATCCATCTGGTGAGTAAAAGGCTCCTCCATCGTATCCATATTCTGAAGTAATTTGCTTTAAATCGCTCCCGTCATAATTCATTTCATACAAGTTAATATCTCCGTCTCTTAAAGAGGTGAAAATAATCTTTTCTTCAGAAGGATGAATAGTGGCTTCAGCATTATAGCCATTAGGACTATCTGTTAAAGCGATTGTTTCATTTTCGCTGGTTCTGAAGATTTCAAATGGTCTTAAGGGCCAAATATATTTTCTTGGATTAGGATCCTTGTAAATCTCAGGACATTTTTCTCCTAAATGAA
>sequence21
CCCTCTTTTATAAATGCTTCTAGTTCGTTGTGGACGATTGTCCCTTTTATCGCACCTTTGTTCCATTTTTTTATAACTTGCTCAACTGTTTTACCGGCATATTTAGGATGAGTATTAATGAGTTTTCTGGCGACATTTTCCTGATCAAATTTTTCAAAAAAATGATGAATAAATTGAGTAACGCTTTCAAATTCGAAGTTAGGATTTTCGGTTAGAATATATCGATGATTTTCTTGATCAAGACTAATATCATTTTCAAAGAGTTTATTCATAATTATTTTTCTTGGATAAACTCTGATTCCTTAGATTTTCGTCTCAATTTATTTACCCTAACACGCGTAATTCTTCGTTGATAAAATCCCAATGTCCAACCAATGATTAATAAAATTGGAATAATAATTCTCTCTGGAGTATTAGAATTTATTGTAAAATAAAGGAGTATTAATGCGGTCAATAATTGAATACTATACTGAACCGAGTTCAAAACACGTAGTCGACGCTTCATTAAACGCCGATTAAGTCTAATACTAATCTAATTACTTGCCCAGAAGCACCATCTTTTTGAATATAACTTCTATTTTCAACGTGATAAGAAGTCCCAGCAACATCAAAATGGACCCATGGAATATTTTCACCAACAAATTCTTTCAAAAATGCAGCCCCAGCGATAGTGCCGGCTTGCCCTGGAGAACCAAGGTTTTTTACATCGGCTATTTTTGATTTTACTTGATCACAATATTCCTTCCAAAGTGGTAACTGCCAAACAAGTTCTCCTGTATTATCGGAAGATTTTTGGATTCGATTGATTAAAGATTGATCGTTACCCATAAGTCCTGTAGCAATCTTTCCTAAAGTAACAACCACGGCTCCTGTTAGTGTAGCAAAATCAAGCATAAATGATGGCTTATAATGTTTGCTAGCATATGCAAGAGCATCAGCAAGAATTAATCTACCCTCTGCATCCGTATTTAATACTTCAATAGTTTTACCATTGTATGCTGTTAGAATATCTCCAGGTTTCATTGCAGATCCTCCAAGCATATTATGGGTAGAAGGTATTAAAGCAACTACATTAATTTTTGGCTTTAAAGTAGCTATTGCATTCATAACTCCTAAAACTATTGCAGAACCGCACATATCAAACTTCATTTCCTCCATTCGAAGACCTGGTTTCAAAGAAATACCACCAGTATCAAATGTCAACCCTTTACCAACAAGCGCAATCGGTTTTTCACTCTTAGGACCATTCATATATTCCATAATAATAAATTTTGGAGGCTCATTTGTTCCTTGAGCTACGCCAGCGAAAGATCCCATGCCCATTTTTGTAAATTTCTCTCGATCGAAAATTGTAACTTTCATTTTACCTTTTTCACCAACTTCTTTAGCAAATTCTGCTAAACGAGTAGGAGTAGTGACGTTTCCTGGATGATTCGCTAAATCTCTAGCAGCACATACAGCATTAGCAATTTTGACTCCCTTCTCTGCAGAAGATTTATTGCAAGATCCAACCATTGTAATAGATTTTAAAGAATAATTAGCACGATCATCTGTAAAATAATTTAAGAATCGATAACTTGATAAAATTAGGCCTTCTGAAAACGCCTGGCAAAAATAAGGTTCTTCCTCTTCTGCAGGGCATTCAACAGCCACATTTTTAAAATCATTTTTAATTGCATGATTAATTAAAGTACCAGCAGCTCTTCTAAAATCTTCAGGAGTTCTTTCTTCAAATTTTCCTAATCCAAAGTAGGCGATACGACACTCTTCAGTTATTTCAAAAACAAGATCTCCAACATTTCCTTTTTTATTTTGTGATTTAAAAAGACCCGCTAAATCATCATCCATTTCATCGCTATAGGTTGGAACCCCAACTAGACAATAATCCTCGTCTACTAAATCATTAATTTTGATAAATTTTAGTTTATTAATATGTGCCATAAGATCTCCTAATCCAAACTTACATTATGATTGTATTTCAAAAATTCACCTTGATCATTTTTAATGACTGTTACAAAAGTAAAATTAGCGGTACAAGCAAGACGTTTTCCATGTCGTTTGCTTTCAGCAAAAGCACTAACTGAAATTTCAATTGAAGAATTTCCAGCATCAATGACCCTGGCTTCGCAATTTACCCAATCTCCTAAAAATACAGGTTCTTTAAATTCAACTTTATCCATTGCACGTGTTACCGCAGTGTATGCTTCAGTATCTTTAATAAAACGATTTGCAGCTTTTCCTGCGGCAAGATCTAACCATGCTAGCATATAGCCTCCAAAAAGGCTACCAGCTGCATTAATATGTTGATATTGAACTAGCTCAGAGTAATTAGCAATGAATTTTGACATATCGAAATTTAAGTGATTTAATTCCTTTGAACAGGTTTTTTTGATTAAAAGTTTATAATAGTTTTGCTTTTTGTTTTCCTTCAGTTAAATCAACTTTAGAAAAGACATAAGCGCCAAGAATAAATAGAATCAAAACTGATAAAATCCCCATTCTAGCAGCTAATTCTTCATCGTTTACTTGAGAACTTATAACTAGAGTAACTGTACCCATTAATAGCGGTCCAATAACAGCTGCAAATTTGCCCCACATGTTATAAAAACCAAAAAATTCTCCAGATTTTTCTACCGGAATAATTCTCGCATAAAAACTTCTGCTTAACGTTTGAATTCCCCCCTGAAAACATCCCAATAACACTGCAATAGCATAGAAATGCCAAACCTCTGTCACTAAAGAAGCGGAAATAATAATAACCATGTACCCAAAAATACCTAAATAAATTGCATTTTTGATGCCGATATTTTCTGAGAACTTGACATAGAGCAAGGTTGCAAAAAATCCAATAAATTGGATCAAGACTAAGGCTCCCATAATCGATGTTTGAGAAAAACCTAATTTAATCCCAAAATCAGCTGCCATTCGAACAACAGTGTCAACTCCATCAATGTATAGCCAATAAGCAATTAAGAAAGTGAATACCACTTTCAGATTCTTAATTTCATTAAAAGTATCTTTTAGCTCCTTTAATCCTTCTTTTATTGACTGTGAAATTGAAGTTTCTTCATGCAGGGATGGTTCTTTAACAAACAGGAAGATTGGAAGAGAAAAAATTGCCCACCATATCCCTACAGAAATAAATGAATATTGAATAGCCTCAGTGGAATTAGCCAAACCAAAACTGGAAGGAAAAGTCAGCATTAAGAAATTTATTACAATTAAAATACCTCCTCCTAAGTATCCTAAAGCAAAGCCTAAACCAGAAACAAAATCAATATTTTTTTCATTACTTACTGCGGGAAGTAATGAATCATAAAAAATATTACCTCCAGAAAATCCAATAGTAGCCATAACATAAACAATCAAAGCAATAGGCCACATACCTTGAGCAATAAACCCTAAGGAAATAGACATCACAATCCCCAAAAATGCGAAGAAAATTAAAAAGCGTTTTTTTAAAGTTCCTTTATCTGCGATAGCGCCTAAAATAGGAGCAAGAAGTGCTACAAAAATCGAGGCAACTGAATTACCTAATCCTAAATAAAAAGTACTAGAGGATAAATTTTCAGATGAAGACCAAAATTGTGAAAAGAATATTGGGAAAAAACCTGCCATAATGGTTGTGGCAAATGCAGAGTTGGCCCAATCATATAGTGCCCAACTATAAATTTTCTTATTTTCCTCTTTCATTACCCTTTCCTAATCGACAACTTAAACGTAATACCATTTAAATCAAAAGATTCCCGAAGTTTATTCATTAGAAATCTTTTATAACTTACAGAAATTAATTTAGGATAATTGGTGAAAAATGCAAAAATGGGAGGATTGATATGCACTTGTTCAACGAATTTAATTTTTATCAGCTTTCCTTGCACAGCTGGAGGAGAATATTGAATTAACACTTTTTCTAACCAATTATTTAACTCTTTTGTTGAAATTTTTGAAACATTTTTATTAAATAATTCCCATGCACTCTCTAAAATATTCGAAATTCTCTTTTTTGTTTTTGCTGAAACAAAAAGTAAGGGATAGTTCTGCAATAAGGGGAAATCATAGTACATTTCCTGCTTAAAAGAATCAGCTGATATATTTGATTCTCCAGTTAAATCCCATTTATTTATTAAAATAATTAGTCTTTTACCTTTTTTTAATACTTCATTTACAATAGACTTATCTTGTTTAGAAATTCCCTTAATTGCATCTATTACTAGTAAAACAATATCTGACCTTAGTAAGGCATCCATAGCTCTTAAAGAACTATAAAATTCTATGCTATCATCAATCTTGCTCTTTTTTCTCAATCCAGCCGTATCAATAATTCGTATTTGCTTTCCATGCCATTTAATGTTTGTATCAATTGAATCTCTTGTAGTCCCAGCAATATCTGAAACAATTGCTTGATCTTTTTGAATGATAGCATTAAGAATCGAAGATTTACCTACGTTTGGCATTCCTACGATTGAAATAGATAAAATATTTTCTTCTACTTCATCCATCAAATTGGAAGAGTATGTTTTAAGAATCTCATCTAAAAGCTCTCCTACTCCTGAACCATTTAGTGCTGAAATAGAAAATAGCTGATCCCATCCTAGTTCATAAAACTCATGAAGATTTTCATCAATTTTAGAACTATCATTTTTATTGATTGCTAAAAAAGATGGTTTAGATGATTTTTTTATGAGTTGAGATAAGAATCGATCAGCGGGATTTAATCCATCCTTTCCATCGACAAGCATAATAATTACATCACACTCTTCAATTGCATGCCCTATTTGCTCTTTGATTTTTTGATTAAAAAAATCATTGTTGTCTCCAATAAATCCTCCTGTATCAATAATATCAAATTTATGATTAATCCATTCCCCGGAAGCGTACACTCTGTCGCGAGTTACTCCCTCAGTTTCATCGACGATGGATATTCGGGAGCTGGAAAGACGATTAAATAAGGTAGATTTTCCCACATTTGGACGTCCAATGATAGCTATTTTTGTATTTTTACCCATAATTGAGGATAATACTAATTGATAAAATAGAGTCCTAATAAATTATTAGAAGAGAAATCAAACTTGTGAAACTAAAAATACTAATAAATCTATCCAAAGAATAACAGAGAGCAATATGGTGATTGCAAAAGGATTTCTTCTAAGAGAAATTTTTGGATTAATTTCTCTAATTAAAAAATGAATAGTTCTGAACAAAACGTATGTCCATGCCAATAGTAATGTTAAGAGCGTCACGTGACTAACAATGTAAGCAATTATACAATATACATAGAAAATTATTGGAGCTTGATGTAAGTTTTTTAAATGTTCTCTTGAAGCTTGAATCTCGTCTGGAACAGCTTCCCAAGAAGGCATAAACTTTAACCATTTGGGATCTAATGATTTATTTAAAACCGCTTTTTTGACTTTTTGAGCATTAAAAGCAGTTTGTAATAAAGTAAGAAATACTAATGGAAAAATTGGGAATAAAATTAAAGCGGAAGTCACTTACTGACCTAAATAAACTCGAAGTGGTTCACTGCGAGTTTTATGAGCTAAACGTCTGATAGCTTTTTCTTTAATTTGACGTACTCTTTCTCTAGTTAAGCTAAATTGTTCTCCAATTTCATTTAAAGTAAAAGAACGATCTCTATTAATTCCAAAATACATTTCAATAACAGATCTTTCTCTTTCAGTAAGTGTGCTAAGAGCAGATGCGATTTCTTCTTTCATAGAAGTATCCATAACAGTATTATCGGGATCTCTTTCTTCTTGGTCTTCAATTACATTAATTAAAGAACTATCCTCTCCTTCTGCAAATGGAGCATCTAAAGAGCTATGTCTACGTGAATATTGTAATGCATTAAATACTTCTTCAGTTTTGATATCAAGTTGATGGCTTATCTCTTCCACTTTAGGAGGTCTACCCATTTCAGCTTCAAGTTTTTCAGCTGCTTTTGTAATTTTTGTAATAGTACCTACACGGTTTAGCGGTAAACGAATCAGTCTTCCTTGTTCAGCTAAGGCTTGTAAAATAGCCTGACGAATCCACCATACAGCATAGGAAATAAATTTAAATCCTCTTGAAGGGTCAAATCTTTTGGCTGCTTTGATTAAACCTAAATTTCCTTCATTAATGATATCCGAAAGAGAGAGACCATTTCCTTGATATTTTTTTGCAACCGAAACAACAAATCGTAAATTAGCTTCTACCAATTCTTTCATTGCTTTTTGATCTCCCTTAGCAATTTGAACAGCCAATTCAACTTCTCTATCAGGTGAAAGAGGCTCATATTGAGAAATTTCAGCTAAATACATGCTAATCGTACCACTAGCAACTTTCGATCTTCTAATACGTTTATCAGCTCGTTCTAATGCAGCTTTTCTTACTTCTTCTTTTTCGATTTCAAGGGCTAGAGCGTCTGCATCAGTTCCCTCTAAATTTTGGAGTTCTTTTTGAAGTTGTTTAGCGGATAATTTTTTAGCTGCCATAATTGTAGAGTAACGGCCCAAAATTTAAGAAATTTACTGAGATTTTCAATATTTTATTTTTTCATCAAATCTTCAATAGTCTCACGAAGATCTTCAAATTTGAATTGATATCCACTTAACAACGTGTTTGAAGGAATAGTTTTAGGACCATAGAGAACTAATTCTTTCATATCGCCAACGATATTTTGAATAAATTTTGGAATAAAAAATACCCATTTATTATTTGGATTTTTTGGTGATTTAATTGTCTGATAAAATTTATAATGAGTACAAAATTGTGGAGATATTAAATTATAATTACCTTCTTCTGCCTTTTCATCTACTATATATTTTATAAAACCCACTACATCATCTAAATGAATCCAGGGGAAAAACGCATTATTGATTCCTGGTACAGGAAAACATAACAACAGGAGTGGTTTGATCATTTGAATAAATGATTTTTTTAAAATAAATCCAATTCTTAATTGATAGATTTTAACACCTTGAAACGATTCAAATGAACGGCAGGCCTGCTCATTTGCCTGACAAACTTCAGCTAAAAAACCACTTCCCGCTTTAGATAGCTCATTAACCTCTTTCCCTTCGTTCAAAAATCCATAATATCCAATCGCAGATGCATTCAGAATTTTTAATGGACGGATAGAATTTCGTAACAAAAATTCTTTCAATTGATATGTTGTATTGACTCGACTATCTAAAATCTTTTCTTTAACAGTTTTTGTCCAAAGAGTTCCTACATTTTCTCCACTCAACTTAATGACAATTCGAATATCATGAAGTTCATTTGGATTGTCTTCATTCCAATCAATAATTTTAACCTTTGAAGTGTTGAGATCGGAATATTTTTTAGGATTTCGTGAAAGTACAAAAATATCGTGGCCATTATTTTCAAGAACTGAAACTAAACGTGAACCCACAAACCCTGTTCCACCTGCAATTAATATTTTCATTTCTTTTGCAGAGACTTTAATACGTTCTGAATTTTCTCTTGAGTAGAAGGATTAAACCAATTCTCAATTAAAATATCACCAGAAAATTCTTTTCCATGAAGTAGTGACTCTTTTAAACGAATGAATGGCTCTCCAGCCGCAATATAAAATTGAGCTAATTCTTCCGCACGATGAATGGCTTTTTTGGTCGCTCTCTTTTTACCAATAAAGGGGTTAGAAAAATACTCGTTAATTAATCCTCTTTGAAAACATTCTTTAGGCGAATAAAGACGGCATTGAGAGGCCACTTCAAAAAGATAATCCCTTCGAATGGTTTGGCTAATTATAGTCAACATGTCTAAGGGTAAGTCAATACCAATGGCCATTTCATTTAACCCCATCCTCTGTTTTCCAAACATTCCAATTCGATAATCTGATGCTAGGGCTAACAAGCACCCTCCTGCAATAGCATGACCAGAAATGACTGAAATGACGGGGCCTGGAAATTTTCTGATAGACTGTAATAGATTACTCAAAGAAGAAAAAATTTCACCGACTTCTTCTTTCGTACTAGCTGCCGTTAAATCCTTTAAGTTTAAACCAGCACTAAAAACTTGATCATTGCCTAAAATAATAATGGCTTTGGAGTCATTTAAGGAAAGCTCCCTTATAATGCTTCTTTGTCTTTCAACTGTTAATAGGTTTGGTCCTTTATCACCTAATTGAATCGTTTTTATCTGATTGGAGATTGAAACTTTCATAAATATTATTTATTCAATTCTTTCTTAATAGCATCAAAGACTGGTACAGTTTGTTGTTTTTCAAAATCAAAACAAACAAGAGTCATAAAACATTCAATAGATGGATCGTTTTCATCTCCTACAAAAAGTCCGTATTGATAATCAAAACTTTTTCCTCCAATACGAGAAATTTTCAACCCAACTGTTAATTCCTCAGGATGTTTGATTTGCTTTAAATATTCTAACCTCATTGAAGCAACAATGAAGGGAAATTCAATCTTATTATATGGTTTTAAGCCCAAATCAGCCGCATGCCTTACACGAGCATCTTCAAAATAGGCTACGGCTGTTCCGTGATTGATATGTCCCAGCATATCTTCATCGTACCATCTTGTTTCCATAGAATAAAAAGTTGTATATTGATTTTTACTTAAGCTGCTCATCTATTAAAAATTGAGGGTTATCTTTTGGAAAAATACATTGCTCTTTTTTACCAAACCATAAATATCTTTTTCGTGCAATCAAATCATATCCCCAATTCCAAATGACATTTGGAAGAAGATATTTTGAGAATCTTAAAGGGTGTTTTATAATCTTTAAAATCAAAAAAACTGCTTCAGATTTATTGTATAGCTTATTATCATATTTCACAAAAACTGTGTTTTGTAGATGATATTTCTGATCTAATTCTTTTTGAGCATATGGAGATTGTAAAGGACTAAAATAAATTAAACTATTTTCCGGATATCGAGATAAAAAATTGATTAATTTTGAACACAAAAGACAAACTCCATCATAAAAAATAATTAACCTCATTACAAAAAAGGAAAGAAAAATGAGGTTTGTTTTTTGTAGTCTTCATGGTCATCAAATCGAGATAGTGATTGTTCAATTCTGCGCATATTAGGATACCAAACAAAAGCGATAAAAATATTTAGAATCACCACAGGAATCCACCACATCACTGCTTCAATGGACATCAGCACAAAGGAAAAATAAATTAGGAATTCTCCAAAATAATTGGGGTGGCGACAATGGGACCACAGTCCATCTTTGATCAATCCTTTATGATACTTTAGAAAAGTAAATTTTTGCATATCTGATACAAAGTGATACCAGACTCCGAAAATAAAACAGATTATGGCTCCAAATAAAATTGGAATCGAAGCCATGTGAGATTCCGATGTAATGATATAAGCTGGTGTCCAGTAAGCACAGAGCCCAACAAAAATCAAAATTCCATAAGAAAATTTCACTGGTTTTTCCCAGGTTTTATCTGGAAAAATTTGGCTTTTCATCACCCACATCAATCCATAAGACCCATGAAGAATAAGATAAATCCATGCCGTTAAGTTATTCCATTGATTGAAATAGGATATCAACCCTAAAACAATGAACCAAGTAATTCCCTTGCAGAAGTCAATAATATGTTTTTCTTTAATTACCATAACAGAAAAATGGAATGATTAAAATTCCAAGCATCAAAATAATTCGTGTTAGATTAGAACGATATTTGAAAATCGTATCTTTTTTATTCATTGGATAAAGCATTCCAAGCTAACATTCCACCATCAACATTTATGGCGTTGTATCCTTGAGCTCTCAGCATAGCCGTTGCCTGAGCTGATCTTCCTCCACTTCTACAAACAACATAAATTTCTTGCTCTTTTTTTGATTCAAGCTCTTTCATTCTAATGGGAAGTTCTTGTAGTGGTAACAAGGTTGCTCCATCGATATGACCTAATTCACCATCAAACTCTGCTGGGGTTCTAACATCCAAAACATACGTATTTTCATTCAAAATATTATTTTTAAATTCTTGCATTGAAATTGTATTGCTCATTCCTTGACTTCCTCCATTCATTTTTTTAAAAATTGCCACACATGCTATTAATACTATTAAACCAAGTAATAATTTTGTATTCATCACTTATCTCTCCTATTTATGTATCTACGAATAGATAATACATTGAAAATTGTTGCTATAACGACTAAAACAGTCATTAATATTATCGTTGAACGCATACGACGAATTTAGGGAGCAATCCAGCGGGATTCTACTGTGTTTTTTTTGAAAGAAAATTGACAGCGAATATGTCCACTATATTTTAGTTCTAAATAATCCAATTGATCAAAATGGCAGCGAATGATGGTAAAATGTTTATACCCTTCGTCAATTATTGAAGGTAAGTCTTTTTCATCAAAACGAGCTTTTTCCGGTAAGTTACAATGATATTCATCTAAAATTTCTGATGGTGCATAGGGTGCTAAATAACATCGACGAGAAGAAAGAGATAGTGTTTCCCAACGCTTTTTGGTTTCATTGTTTTGATGATGAATACCCACCTGCCCATTAAACCGTAGTTGAATACGGTTTTCTTTGTCATAAAATAACGCTTCAAATGCTGGGTTTGCTTGTAATTCATTGACTTTGGGACTTCTAAAATCAGTATGAAAATCAAAATAATTTTCTTTTTTCGAAAAATCTCTTAAAACAACTGTACGATTCTTAGGAGTATTATTTGAAGAATTTGAAAAAGAGAATAAACGATAAGGATGAG
>sequence22
CACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGAAGCACCTGCCGAAGAAGTAACTGAAGATTCTAAAGAATAAAATTTAGATTCTAAAAATTATGGAAGTATATTTTATAACTCCATTTCCGGAAACTATTAATCTTCTTATAAAAAATAATATAGCTTTTCAAGGTATCAAAAAGAATATCCTTAGCATCAAAGTCATTAACCTCCGAGATTTCACTGAAGATCCTTACAAAAAAGTAGATGATGAACCGTATGGTGGTGGTGAGGGTATGGTTATGATGGCAGAACCTCTTTTTAAATCTTTAGATTATTGCCTAAGTGTAATTAAAAATAAACCTAAAATAATATTTCCCTCCCCTAGAGGAGAAAAATTAGAATCCAAAACCTCATTTAAATTGTCAAAAAATTCTTCATTAATTTTTATTTGTGGTCATTATAAAGGAATTGATCAAAGAGTTATAGATAAATATGTTGATTATGAGATTTCAGTTGGAGATTATGTTTTATCTAATGGTGAATTATCATCGTTCATAATTTTTGACACTATTGCAAGATTAGTACCAGGAGTTCTTAATAATATTAATTCAGCTCTTACTGATTCTTTTGTTGACGATTTATTAGATGCTCCGTATTTTACGCGGCCTTATGAAATAGATGGATTAAAAGTTCCAGATGTTTTATTATCAGGAAATCATCAGTTAATTGCTGAATGGAAAGAGAAAGAAAAGGTCAAAGTTACTAAAGAAAGAAGACCTGATTTATATAGAAGGTATAAAAAAAAATGAATACAGCTTTAAAACAAGATATTCCAAACTTTAAACCTGGAGACGTTATTTCAATTAGTGTCAATGTTCGAGAAGGCCAAAAAGTTCGTCAGCAATTATTTAAAGGTACCGTAATCGCCAGAAAAGGTTCAGGTATAAGTGAAACTATCACTGTTAGAAAAATTTCTAATGGTGTTGGAGTAGAAAGAATTTTTCCTATTCATTCACCATCCATTGCTTCAATCACTGTTGATCGTGTTAATAAAGTTAGAAGAGCTAAACTTTATTACTTGAGAGGTTTGTCCGGTAAAGCGGCTAGATTGACTGAAAAGAAATAATTTTTGTCTAAAAATTTAAAGTTTCTTACTGTACTTAGTTTATCCCATTCTTTAGTCCATGCAAGCATGATGCTTGTTCCTAGTTTATACATTTTTCTAATGAAAGATTTCAATATTTCAGCTTCATTTTTAGGATTTATTTATAGTATAGTTTCACTTTTTTTTGGAATTGGGTCTTTACCAATATCTTTTCTTTATAATAAATTTGGAGCAAGAAAACTTTTATTAATTTCTCAATTAGGAATTGCTACATCTAGTTTGATAATTTTTTTCAATAATGAGCTAATTCCTTTCATTTTATTTAGTACACTTTTAGGGTTATTTTCAAGCGTTCACCACCCGATAGCTTTAACCTTAATATCGGAGAGATTTCATAAAAATATATCCAAGGCAAATGCATTTCATGGGGTTTTTGGTAGTTTAGGAGTATCGTTGGGGCCATATATAGCATATCTTTCAACTAATAACTATGATAATTGGCAGATTGCTTTTTTTGCAGTAGGAATGATGAGTTTATTTCTATCACTTTTAACATTTTTTTTCATTCCAAAAAATGAACAAATATCTAAAGGGTATCATTTCAAACAATTCTTATTAGGTTCTCAAAGAAAAAAATTGTTAATCTTTTTTCCGTTATCTCTATTGATAGGATTTAATTTCACAGCTTTTAATACATTTATTCCTTCTGTTTTTAATCTTGAATTTGGGCAGGAAGCTAATTTATTAATATCTGGAATTATGATAATTGGAATAATTGGACAGATTTTAGCTGGTATATTAGGTGATATATTTTCAAGATTTAACATCTTAAGTTTTGTTTCTTTGATTCTATTTCCATTATTTTTATCAATGACGTATATATCATCATCTTCTCTAATCTTAATTTCTATTGTATTAGCAGTTGGAATGTATTCAATTCAGCCATTGTTAAATTCAATAATTAAAGACATTACAGTTCCAGAGATTAGATCAATTATTTATGGAGCAAATTTTTTTTTGATGTTTGGTGTTAGCGGGTTCGCTTCTTTTGCAGGAGGATTGATCGCTGATTCTATAAGTTATAAATTTATTTTTCCTATCTTTTCAATATTTTTTCCAATTTGTATATTGCTAATACTAAATCTTAAAAAAATTAATAAAACGAACACATAGAAAATGTTTATAAGCATGACCGGATATGGATCTTCAACCTTTGAAGATAAAAATTTATCAGTAGGAGTTGAGATTAAATCTTTAAACTCACGATTTTTTGATTTAAATGTAAAATGCTATTTTTTATCAGCTCAGCTGGAGGATAAGATTAGAGCTTATGTTCAAAAAAAATTAGTTAGAGGGTCAGTTAATCTAAATATAAACGTTGAAAACTTTCACTCTTTTGACACGAATTCAAAACAGTTACAAAACACAATTGCTTCCTACAAAGAAATTGAAAGAAAATATGATATTGAGCTTAACTACTCATCTATTTTTACTTTAAATCAGTTCAATAAGTCAAAATTTCTTTCTAAAAATGATGAAAATAAAATTTATAAATGTGTCAAAGAGGCAGTTGAAATTCTTATTGCGATGAGAGAAAAAGAAGGAGAAAATATTAAAATTAACTTCATTAAATATTTGAATAACTGTAATAAAAATATTTTAAAAATTGACCATATTTTTAATCAGGAAGCTTTCAAAAATATTAAAAAAAATGATTCTTTAAAGGTTACTGAAACAAGCGATGATAATCTAAAAGATGACATACAAGAAGAAATTGATCGTCTTAAAAGTCATATCATTATGATTAATAAATCTATAGAATCTAAGGAGTTTTCTGGTAAGAAAATTAGCTTTATATTGCAAGAAGTTTTAAGAGAATCAAATACAATTCTTTCAAAGTTTCAAAAAAAGAATGTATTGAAACATAGTATTGATTTGAAGGTTCAAACTGAAAAATTGAGAGAACAAATAAATAATATTTTATGAAAAACTTTATCGTCATATCGGGATCTTCTGGTTCTGGAAAAACAACTTTAATTGAACTACTTTCGAGAGATTTAAATATTAGTATATCGGTTTCTTCGACAACTAGAGCAAAAAGAGACTATGAAGTGAACGGAGTACACTATAATTTTATTTCAAAAGATCAATTTGATGATATGATTTCTAAAAATGAATTTTTAGAATATGAAAATGTCCACGGAGATTGGTATGGAACGCCTAAAAAAGGTTTACAGAAGTATGTTGACTCCAATCTACAATTGTTCCTTGAATTGGATGTAAGGGGTGCAATAAGTCTCATGAAATTCTTTCCTAAAAACACAATTTCTATTTTCTTATCACCTCCCAATATTGATGAACTTAGAAATAGGTTAATTAAAAGATCTACTGAAACTTCAGAGCAAATTGAAACCAGATTGGGAAGATATCAAGTTGAGGACAATTTAAAAAAAGAATTTGACTATAATTTAATAAATGATAATTTCGAGACCACGTTTGAAGTGATAAAAAAAATAGTTTTAAACTGTAAGTTAGGAGATTAATATGTCTACTGAGTCTGTTTCATTTAAAAAGCTTTTAAAGAAGACTGATGATGTTTATGAATCGGTTGTAGTAACATCCAAAAGAGCAAAGCAAATTCTACAAGATCGTTTAGTAAAACAAATGATATCAGAAAATGAAGAAGAAATGGATGCAAATATTTTCTCCGAACCCAAACGAGAAATCGTTGACTTTAGTAAGGAAAAGAAAGTCACATCTATCGCTTTAGAAGAATTTTTAGGTGGTAAAGTAGATTGGACAAAATCTGAAGAAACTGTTGAGTAAATTTCTTCAAAAAAACTCCTCTTATCTAAATCAAAACTCCCAACTTTTCGGTAATGAAATTATCTTAGAACTTGATGAATCATTTTCAGGAAATTTATCTTCTTTCCAAAATCAAATCTGCAATTGTCATAATTGTCCTCTAGGTCAAACAAGGACTAATTTTGTATTTGGTGAAGGTGATCCGAACGCAGAACTTCTAATTGTGGGTGAGGCACCTGGAGAAAAAGAAGATTTAGAGGGAAGACCGTTTGTGGGGCGATCTGGACAGCTTTTAGACAAGATTTTATTAGCTATTAACAGAAATAGACAAAAAGGAACTTATATCTGCAATATTATTAAATGCAGACCTCCTTCGAACAGAAATCCAAACAGAGAAGAAATAGATCAATGTTTACCTTTTTTGAAACATCAAATCAATCTAGTGAAGCCTAAGTTAATTGTTGCATTGGGATTAGTTGCAGCAAAAAATTTATTAAATTTAGAATCATCTTTAAAAGATTTAAGGGGGAAAGTTCATTCCTTTAATAATGTACCTTTGATTGTAACATATCATCCAGCTTTTTTATTAAGAAGTCCAGGTTTTAAAAAAGAGGCTTGGGTAGATTTCCAAAAAATTAGAGATTTTCTAAAAGATTAGCTTTCACAAACATTTTTTCATTATTAAAGTATAATAAGAGAATATTTTAACTGTTGATATGTTGTGGATAAAATAATGGCGGAAAAAGAAAATAAAATACCAAATATTAACCTACAACCTCAAGCAATTGAAGCTGAAGAGGCTGTATTAGGATCAATGATGATTGATGAAGATGCGGCTTATAAGGCCATATCTATTCTAAAGAAAAGTCATTATTTCTATAAAGATTCACATAAATACATTTTCGATGCAATGCTTGTCTTATCATCGAAAAGTTTACCTATTGACACTGTATCGGTTTCAGATGAATTAAAGAAAATGAAGAAACTTACTTCTGTTGGAGGATTATTTTATATATCTGGATTAGTAGATAAAGTTCCTACCGCTGCAAGAGTAGAGACATATGCTGAAATAGTTAAAGAAAAGGGTATTCTAAGAGATTTGATTACCGCATCTCATTATATTTCTAGACAAGCTTTAGATGCAGGTGAAAATGTTAATACTATATTGGATCATGCTGAGCAATCAATTTTTAATTTAACTGAAGAGAAAGATTCAAAAATTTATGAACATATAGATCCTATTCTTCAAAAAACAATTAAGCGTATAGAAGATATAGCTGCAAATCCTAATTCTGTCATTGGTGTTCCATCAGGAATAATAGATTTAGATAAAGTCACAGCAGGATTTCAAAAAAGCGACTTAATTATTATTGCTGGAAGACCATCAATGGGAAAAACAGCCTTAGCTCTTACGATAGCAAGAAATGCAGCCATTGAAAATAATTCTCCAACTGCAATTTTTAGTTTGGAAATGTCTAGTGATCAATTAGGTCAAAGATTGCTTTCATCTGAAGCAAAAATTGATAATAGTCAAGTTAGAAGCGGACAATTAGCCGCAAATAAGTGGAAAAATATTTCTTTAGCTTCAGGAAAACTTGCAGCAGCTCCATTGTACATTGATGATACTCCTGCTTTATCAGTTTTAGACCTAAGATCAAGAGCAAGAAGACTTAAAAGAGAAAAAAATATTGAACTAATTATAGTTGACTATCTACAGTTAATGCAGGGTGATAAAAGTGAAAATAGACAACAAGAAATTTCTTATATAACTCAACAACTTAAGGCTCTAGCAAAAGAACTAGATATTCCAATAATAGCTTTATCGCAGTTGTCAAGAGCTGTAGAGTCTAGAACTGATAAAAGACCACAACTATCGGATTTAAGAGAAAGTGGAGCAATTGAACAAGATGCAGATGTAGTTATTTTCCTATATAGACCCTATCAATATGATCCTGAAAATGAGACTGAGAAAGGTTTAGCCTATTTGATTGTAGCGAAACAAAGAAATGGTCCAACAAAAACTGTTAGAGCTACTTTTATAGATACTTTTGCAAGATTTGAGAATTATACTGAATTTTTTGAGAGCGCTTCGTAACATTATAAATGTTACACAAATATTCATATTCTCAAAAAGAGCTAGAATTAATTGATAAGAAAAAAAATAATCTTCTTTCACGTTTTCATTCACAAAAAACAATAACCGAAATTCAAAAGGCTATTGAATTTTCAGTAAAAATGCATGCTGGACAATTCAGAAAATCTGGTGCTCCCTATGTTGTTCATTGTATTGATGTTGCAAATACACTAGCTGACTGGAAAATGGATAATGTTTCAATAATTAGCGCATTGTTACACGATGTTGTGGAGGATACAGAAGTATCTTTAGAAGAAATTCAAAAAGAGTTTGGGTCAGAAGTTGCATTGCTAGTTGATGGAGTCACTAAAATTGATAATATACAATTTAAATCTAATGAACACGAGCAAGTTGAAAATTTCACAAAACTTTTCCTTTCCTTAGCAAAAGATTTTCGAGTTATTATTATCAAATTTTCTGATCGTTTAAATAATATGGAAACTATTCAATTTATGTCTCCAATAAAAAGGAAAGAAATTGCAAAAGAGACTATTGAAATTTTTGCACCTTTAGCTCACAGACTTGGAATGGCTAAAGTAAAATGGAAATTAGAAGATCTATCTTTGAAGTGTATGGATTATAATTCTTACAATGCTATAAGTAAAAAAATTGAAAAAAACTTAAATAAAACTGATAAAATTTTAGCTCAAACTATCGATCCAATACGAAAAGAATTGAAGAAATATGGAATAGAATGTGAAATATTTGGAAGATATAAATCAATTTCATCTATTCATCGCAAAATGATTGATCGAGGAAAAAAATTTGAAGAGATTTATGATTTATATGCAGTAAGAATAATTGTTGATAAAATTGAAAATTGTTATTTAGCCTTGGGAATAATTCATAGTATATATCCACCCATCCAAGATAGATTTAAAGACTTTATAGCTACACCTAAAACGAATGGATATCAATCCATTCACACAACTGTAGTTTCTTATGAAAATAAACTTACAGAAATTCAAATTAGAACAAAGGAAATGAATGAACTAGCTGAAGTTGGTGTGGCAGCACATTGGCTTTATAAAAAATCTGGATCAATAGATAATCTTGATTCTCAGGTCCCATGGATTCGAGACTTAATTTCTATGCTTACATCAGAGGATTCTGATGAACCGCAAGATATGATGGAATTACTCAAAATAGATATGTTTGAGGATGAAATCTATGTTTTTACTCCAAAGGGAGACTTAATAAAACTTCCCATAAATTCAACACCTCTAGATTTTGCTTTTGCAATTCATTCTGAGCTTGGATTTTCAACAATTAGAGCGAAAGTCAATGATAAGCTTGTACCATTATCTTACAATTTGAAAAGTGGAGATTTTGTAAGTATAGAAACAAATAAGAATCAGAAACCAAGTAGTGGATGGCTTAACTTTGTAAAAACATCTAAAGCAAAACATGCCATTGGAAAGTTTTTAAGAATACAAGAAATTGAACATCAGATTAAAGTCGGAGAAGCTGTACTTGAAAAAGGTCTCAGAAAATTAAAGCTACTTGATCAGCTTCCAAAAATTAAAGATGAATTAGAAGAAAAAGGCTTTGAATCTTTTAATGACTTGCTTAAACAAATTGGCAACGGTTCAATTATTTTTAATGATTTGATTGATAAATTTTTTCCAGGTTATAGAGTCCATGAACCCAAAGAAGAAAAAGCTGATTCATTCATTGATGATAGTAGGTTAGACGCTAAAGGAATTGATCTTGATGGCATAAAAGATATAAGTATCCAATATGGAAAATGCTGCAATCCTTTACCAGGGGATTCAGTTGTAGGTTATATTTCTAGAGGAAGAGGACTAATTGTTCATATTGAATCCTGCGAAAATCTTTCATCTTTAGATGATGGAGAACAGAGAATTGTTTCAGTTCAATGGAATTCAAAGAAAGGAGACTATTTCAAATCTAAATTACATCTGATTTGTATTGATAAGTCTGGAATCTTAAATGAAATCACAAATAAAATATCAAAAATGAAAATTAATATTCTTGATGTTAGAACTGATGTGGTTGAAGGTGGAATGGCATCTTTATGGATTGTTTTAAGTGTTACGCATTTGAAAGATTTAAAAAATTTAATTAAAACATTAAATAAAATACCTGGAGTTGACTTTGTTCAGAGAGTTCATGACTAAAATGAGAGTAATTGGCATTGATTATGGTTTATCGAAGTCAGGTGTTTCAATATCTGATCCTTTAAGAAAGATTGCTCTTCCCTATAAAACCATAAGATATAAAAATGAAAATGAATTTTTTAAAATTATCCTTGATATCTGTAATGATAAAAATATTAACGACATTGTTTTTGGGTATCCAAAAAATATGAACAATGAATTAAATGAAATGACCAATATAATTGACAAGTTTAAAGAAAGATTTGAAAGTAAAAATTTCAATTTTTTTATTGAAGATGAAAGGCTTACATCACAGTATGCTCAAAAAATTCTTTTATCACAAGGTATTAGTACTGGAAAAAATAAAGAAAAAATTGATTTAATTGCTTCTACTTTAATTCTTCAGTCTTTTCTAGATAGATGATAGATGTTTATAAAAAAAATAAATTAATTATAGCAATTTTATCTGGGATGTTAATTGGATTTTCATATCCTCCCTTTAATTTAGGATTCCTAATTTGGATAGGATTTGTTCCATTAATAATATATAATTTTTATGATAATAATTTAAGCTCGAAAAATTTTATCAACTTTACTACTGCCTTTGTTGCTTTTTCAATTATTATTCACTGGGTGGCAACTAACAATGGAACTTCTCTTTCAATTGCAATATTATCATACATTCTTCTAGTAATCTATTATTCGTTTTTTTTTGTTTTAATGGGAATTATTTTTCATTATTTAAATGTTAGGTTCAAGATTTTTCTTTTCCCTTTTTTATTTACTTTAATGGAAATAGCTAGAAGCGTTGGTCCTCTGGCAGGACCATGGTTAAACTTATCTTTAACCCAGTCCAACTACATCCACTATCTTCAAATGGTGTCTATTCAGAAAGATATTTTGACTTTTATAATTATACTTGCAAATACTTTTATTGCTCAATTTTTTATAACGAGAAAACGAGAATGGGCTTTTTCATTTTTATTTGTCATTATATCTGTCAATTTGATTGGAAGATTAATTTTATTTAATCAAGATTTAAAAATATTAGATAAATCAGTTACAGTATCAATCGTACAACCATCTATATTACCACAAGACAAATGGGATCAAACAATCTTCGAGGAAAATAATTTAATCTTAGATAGTTTATCTAGAGAGTCTTTATCTAAAAATCCAGATTTTATTGTCTGGCCTGAAACTGCTATTACTACTCCTGTTTCATCTCAAAGTGTTTCAATGATATTTCAAAATAGCTTTAATTTCAATGGCGCCACTTTTATTACAGGAGTTCCTGAGTTGTCAATTAGCGATAATTCCTATAATTATTTCAATAGCGCTCTAGTTGTTACGCCTGAAAGAAAATATGATTTTTATAGAAAAATCTTTCTAGTTCCTTTTGCTGAGTATGTTCCTTTTTTTGGAAAACTTGTAAAAAGAATAAATAGATTGGATTCGCTAGGAAGTTTTTCCAAAGGACAAGAGTATAAAGTGTTTGAATCTGAAGACTTAAAATTTTCCGTAATGATTTGTTATGATTCTTCTTCACCAAAAATTGTACAACAGTTTAAAAAATTAGGTGCTGAATTTATATTCATTTTAACGAACGATGCCTATGTTAGCGATGCAATGGCTCATCAACATTTTCTTTTAGCTAGGATTAGAGCAGTTGAACAGAGAATACCTATTATTCAATCTGGCAATCATGGGATTAGTGGAGTAATTTTATCCACGGGAAAAATTCTAACTAAAACTAATTTATTTGAACGAAAAACTCTAACAGCTCAAGTTTTTTATTAATGAAAAGATATAAAGCTACAGTTTCATACGACGGAACAAATTTTAATGGATTTCAATCGCAAAAAAATAAGAATTCTATACAAGATCAGATCGAACAATCATTATCTTTTTTGAATAATAATAATTTAATTAGGATAGTTGGTGCAAGCAGAACTGATGCTGGCGTGCATGCTAATGGACAAGTTTTTCATTTTGATTTAGATACTTCCTTAAATAATGAAACAATTGCCAAATCAATTAATTTTAGACTTCCTAAAGAAATTTTCATTAAAAATATAGCTGAAGTAGAATCTGATTTTCATTCAAGGTTTGACGCTCGGTTTAAAAGATATAAATATTCATGTATAAACATCTATAGTCCTTTATTTCGAAATACTCATTACTTTATCAAAAATTTAAATCTTGAAAAGTTAGAAGAAGTCCAAAACCTAATTCTTGGAGAACATGATTTTTTGTCATTTTCTAAATTTAATGAAGATGTTTTGAATACAAAATGCACGATTAGCAAATCAAGTTGGTACTTAGAGGAAGAAAGGCTATATTATA
>sequence23
CCCTGAGTTAAAGAAGTATTGGATCGATACACTGAAATTGGAATTCCACAAAAAACAAGAATAAAACATATAAACGCATAAGCAATTTTATATTCTAGATCTACTTTCCATCTTTTAGCATTGATTCCATTTGATTCTAAAAAGCTAATCTGTTTTTTCAGGTTTTTATAGGTCATTTCGCTAGAAATTTCTCCAACAGAAAGAATATCATCTAACGAAAATTGCAATTGGATTAATGTGTCACTTTCAGAAATGATTGTTGAGAATTCTAATCCTGTTTTATCAAACTTTCTGATTGAATAATTGGAAATATTCCATTTGTTTTTTTCTTTCCAAGAAGCACTTTTTGCATCAATTCTTTCCAAAACAACATTCGAATCAAGATTTAGTTGATTCATTGAAAAAATCTGTTTTTCTTTTGGATTAAAAACTTCGATACTGATTAAATAATCTTCATTCTTAAGAAAATAAATATTTTCAATATCATTATTTTTTTTCATTATTTTCGAAATCGATTGTTCTTTGATTTGTTCTTTCTGGATATTGGAAGGGATAACAATATGATTGTCTAGATAAAAAGAAAAAACGCTTATCAGAATGCCTAGGGTTAACATGGGAGTAATAAGTCGATATAAGCTCCAACCTGAAGATTTTAAAACCAACCATTCTTTATTTTGGGTCATTATCCCAAATGTAAAAACTGAAGCAACTAAACATGAGATTGGTAAGGACAAAAGCATCATTGATGGCAAAGAATAATAATAATAATGAAGGTAAACTTCTTTCGGAGACTGATTATCGATAAATTTATTTAAGTTCTCAAAAATATCGACGATAAGAGAAATCAAAGTGAGAAACACTAAAAGAAGAATGAAGTTTTTAAGAAATTGTGTTAATATATAAAAGTCGATTTTTTTCATTATATTGTTAACTTAAAAAATGATTGATACAATTAATATTTTTTTTGCCAATCTTTCAAATTTTCTTTGGGGGAGCTATGGTATTTCCAATCTAGTTATTGGAGGAGGTTTATTCTTTTTAATTAGATCTCGTTTAACCCCTTTTAGGTATCTAAAACATGGATTTGCAATCCTTCTAGGGAAGTATGATAATAATGATGACGAAGGGCAAATTTCTCATTTTCAAGCCTTGTCTACTGCATTATCAGGCACTGTAGGTATTGGAAATATTGCAGGTGTAGCCCTAGCTATTTCTATTGGAGGACCTGGAGCTCTCTTCTGGATGTGGGTTAGTTCATTGCTTGGTATGGCAACAAAATTCTACACTTGCTCTTTAGGGATTCTTTTTAGAGGAAGAGATTCTGCTGGAGTGTTGCAGGGTGGACCAATGTACGTCATAGAACAAGGAATGGGAAAAAAATATAAGTTTTTAGCCTATTGGTTTAGTCTTGCTGGGCTTATTGGATGTCTATCTCTATTTCAATCTAATCAGCTTACTCAAATTATCCATGACCAAATCATAAATGTGAGTTCTGTAAACTTTAATCATTTCTTTTTAAAACTCGGAATTGGGTTACTCATATCATTAATTGTCGCATTAGTAGTTTTTGGTGGCCTAAATAGAATAGCTGATGTTGCATCGAAATTAGTTCCATTGATGATTTTAGTGTACGTGATAGGAGGAATGTCGATTCTCCTTTTAAATATTTATCAACTTCCATCCATATTTGACTTGATTCTCACCTCTGCTTTTCAGGGAAGCGCAGTAGCAGGAGGTTTTGTTGGAGTTTCAATTGTTATTAGTCAGGGATTTAGGCGAGCAGCATTTTCTAACGAAGCAGGAATGGGAACCGAAGTAATGGCAATAAGTGCTACTAAAAATAATGAGCCAATTCGTTCAGGATTAGTTGCAATGATTGGTCCAATTATTGATACGTTAATTGTGTGTAGTATTACTGGATTTGTCATTCTATTATCTAACGATTGGTCACAAGGGCAACTTTCGGGGGTTTCATTAACTCAAGCAGCTTTTGAAAATCATTTAGGAATTATTGGGCGAATAATTGTCTTTTTCTCAGTAGTTACTTTTGGATTATCCACCATGTTTGGATATTCTTACTATGGCTGCAAATGCGCTTCTTATCTTTTTGGTGTTGAAGCAAAGCAGATTTATAGAATTTTTTACATTGCAACCATAGCGATTAGTGCAATATTGTCTATTGATTTAGCAATCAACATTTTAGATTCAATGTTTGCTTTGATGGCATTTCCTACAATGATTTCAGCAATTTATTTAGCTCCAACTATTAATAAAGAAGCAAAAAAATATTTTTTAAATCTGAAGAAAGAAAAATAAATGAAAAATATATACATTTTTGATATGGATGGAACTCTTACTCCCTCTAGACGTCCTATGACAGAAAATTTTGAGCTATTCTTTTCCAGTTGGGCTAAAAGAAATCTATTTTTTTTAGTAAGCGGAAGTAATCTTGAAAAAATAATGGAACAAGTGCCGAAGTATATAATGGATTATTCAAAGGGAGTTTTCACCTGCGGAGGAAATCAGCTTTGGATATCAGACGAGCTTATTTATGATCATAAATTTCCGCCACCTCAAGACTTGATTGATTTTCTCGAAGAAAAACTTTCTCTGAGTAAATATCCAAAGAGAACTGGAAACCATATTGAAGATAGAGGTTCTATGTTAAATTTTAGTATAGTTGGAAGAAATTGTTCTCTGGAAGAGAGATTAGATTACTTTCATTATGATCAAAAACATAATGAAAGAACAAATATTGCTCAAGAAATTATTTACAAATGGGATAACTTAGATGCAGTTATTGGTGGACAAATTTCAATAGATATTACTCCCAAAGGAATGAATAAATCTCAAGTATTAAATGAAATCAAAAAATATTTTCCTAATGAAAAATATATTTTTATTGGAGATCGAACTGTTGAAGGGGGGAACGATTATCCATTAGCAGAAGTAATGTTGAAAACCGAAAATTGTTCTGTATATCAAGCTGGTGAGCCTTCTGCAGAAGATGGATACAAAGCAACCAAACAAATTCTTTTGAAGCTTGAAAATGAATGATAATTTGCATTTCTATAAGACACGTTTTGAATCTGAATTGACTAATTTTTTTAGCCAAAATGGCCCTAAATATTTATATGATCCGATAAAATATTTTATGTTGTCAGGAGGTAAAAGATTAAGACCTTCAATAGTTCTTTTTCTTGGAGATATCCTAAAAAATAATCCCGATGATATGATGAATGCAGCTTTGGGTGTAGAATTTTTACATTGTTTTTCTTTAGTTCATGATGATATAATGGATGAAGATGATTTAAGACATAATCAAGAGACGATTCACAAAAAATGGGATAATGCTAGTGCAGTATTATCTGGAGATGGATTGGGTGCATTAGGTCCTATTTATATAAGTAAAATTGAAAAAAATACCTTGGAGATTTTAAGAAAATACAATCGAGTTATTCTTGAAATTTGTGAGGGACAGGCTTATGATATGCAATTTGAAAATCAAAATATTGTTTCAGATGATTATATTTTAATGAGCTCAAAAAAAACTGGTGTTCTTTTTCAGTTATGTTTTGAAATACCGATTATCAATAATGGAGACAATTCAGAATTATTAGAATTATTTAGTTTAATTGGACTCAATTTAGGAATCATATTTCAGATTCAAGATGATGTTTTAGAAATTGATAATCATCAAACAGAGATTGGTAAAAGTATTTTTTCAGATATTAAACGAAATAAAAAAACTATTCTAACATCTTTGGCATTTGAACACTTGGGTGAGAATTGGCTTGATTTTCAAAACAGTATTTCTCAACATCCTCATTCATTGAAAAGAACTATGTTAATTCAATATTTGAAGGATAAAAAAGTTGATGTTTTGGCTAGGGATAAGGTCGATTTTTATAAAAATAAAGTATTTGAAAATGTTAAGGAGCTTCCAAAAATTTTTCAGGACCCGATAAAAGAAACTATTAGTTTAATAATAAGGAGAAAAAAATAATGTTCAATGCTCTTAAAGATTTCTCTAATCATATTAATTCTGTAATACTAGAATTGAAAGTTTTTGATTTTCCTTATAGAAAATTTGATAAAGTAGTTATTGCTGGAATGGGAGGATCTGCAATTGCGGGTTCAATTGCCAAAGAGTTGGCATCTTTTGAACATGTTATTTTTATTGAAAGAGGATATAAACCTACAGTAAAAATAGATAATAACACTTTAGTCATCGTTTCATCATATTCTGGAAATACAGAGGAGACGCTCAGTTACTTTTCAAAAATTCTCAATCAAACAACAATGATTTATGGAATTTGTTCAGGAGGGAAATTACTTGAAGAATTAAAAAAAAATAACTTTCCACATTATCTTCTTCCTGGTGGATTTTCTCCAAGAGCTACATTAGGGTTTACACTTACTTTATTAATTAAAATCCTCAATGAAGAATTATTAGAAAATTATGATTTAAACTTATTTAATATTTTAACAGAATCTTTTCCAACAGAAAATTCAATAGTGTACAGCGATGCATTAAAGATATTTGATGCTTTTCCTGTTATTGTTACTGAAGAAGAAAATCTTTCGATAGGATATCGATTTAAATGTCAATTGAATGAAAATAGTAAAATGCTTGCTTATAATCTTTCTATTCCAGAAATGAATCATAATGAAATCATTGGATGGGAAGGTGATTTAATTGATAAAGATTTCTGCATAATTTTTTTAATAGATGAAGTTAATTCGTATCATAGAAATAAAAAGAGGAAAGAAATCACCTCTAAGATTCTACCTGATAAAGTTAAACAGCTTGATATAGAACTTCCTTCTCAAATATCCAATAATCTTTTAATGAAATATTTTTATTGGATTCATTACACAGATTGGGTGTCTTATTGGTGTGGAATTTTAAGAAATGTTGATATTGAAGCAGTGAAATCTATCGATTTATTAAAAAAACAGCTATCTAGCTAAATTTTTTTATTAAAAGCACTGAGTTATGGCCCCCAAAACCAAAAGAGTTGCTCATTGCGATTTCAACTTTTTTTTCTTTTGCTAAATTTGGCGTGTAATCTAAATCACATTCAGGATCTATATTTTCTAAATTTATAGTTGGAGGTATAAGAGAGTTATTGATTGCATAAGTACAAGCAATAGCTTCAATTGCCCCAGTGGCACCTAATAGATGGCCAGTCATAGATTTTGTCGAGCTAATGCTTACATTTTTTGAACAATTCGTAAAAGATTTTTTTATTGCATTGGTTTCCAGCAGATCATTATAGTAAGTTGATGTTCCATGAGCATTGATATAGCTAACCATCTCAGGAACAATTTTGGCATCTTTTAACGCCTTATCAATTGCAGAGCTTGCTCCGATGCTCTCAGAATGAGGTTGTGTAATATGGTAAGCATCATTAGTGCTTCCATACCCAATTATTTCACCAAGAATTATAGCCCCTCTTTTTTTAGCATGCTCCAATTCTTCAAGAATAATTATTCCACTTCCTTCCGAAAGAACAAAACCATCTCTCATCTTATCGAATGGTCTCGAAGCTTTTTCTGGATTATCATTATTTTTTGATAAAGCTTTCATATTAGAAAAACCTGATATGGTTAGTGGAGTAATGCCAGCTTCACTTCCTCCACAAATAATTGTGTTTATCATTCCATTTTGTATCAACTTGAAGCTAATACCAATTGAATCTGTTGCAGAAGAACAAGCTGTAGAAATTGAAAAATTAATTCCCCTAAAATCATATTTGATCGCAATTTGTCCACCAGCAATATTGGGAATCATTTTTGGAACATAATAGGGAGAAACACCTCTTTGACCTCTAGAGATATATTTTTCATGCTCATTTTCTAAAGTATTCATTCCTCCAACACCAGTTCCAATAATAACCCCAACATTATTTGTATTTATTTGAGATTGTTGGATTGCTTGATCTGCGGCAATTAATGCATACTGCGAAAACAAATCCAATTTTTTTGAATCTTTTTCTTCAAAAAAATTATTGGAATCATAATCTAATATTTCTCCACCAATTTTAATATTAAGAGATTCAGTATCTATTTTTTTTAAAAGGGATATTCCGGATATGCCCAAAACTAAATTCTTCCATAATTGGTCAGAATTAGAACCAAGAGAGGAAATACTTCCAGTACCAGTTATTACGACTCTACGAGACAATTAATTAAGCGTTTTTATTTATATATGAAATTGCTGATCCAACAGTTGTTATAGATTCTGCATCTTCGTCTGGAATTTCAATATCAAATTCCTCTTCAAATTCCATAATTAACTCAACAGTATCTAGTGAGTCAGCTCCTAAATCATCTAGAAAGCTTGCTTCTGATACGACTCTAGATTTATCAACACTTAGTTTTTCAGAAATTATACTTATAACTTTTTCATCATGTGACATATTTATCTCTCCTAGTTAAGTGACATTCCACCATCAATATAAAATGTTTGCCCAGTAATATAACTTGCTTCATCAGAACACAAAAAATGAACTATATTAGCAATATCTGAAGGCTGACCAAATTTATTTAATGGAATCCTTTCAAAGTAGCTTTTTTTTATAGTTTCAGAAAAATGAGATATCATATCAGTCTCAATTACACCAGGAGCAATGCAATTTACTAATATATTCCTTTTCCCCACTTCTTTCGCCAATGACTTTGTTAATGCAATAAGACCACCTTTTGAAGCAGCATAATTTGATTGACCCTTATTCCCATCTGTGCCAGAAATTGATGAAATATTGATTATCCTTCCGAAATTCTTTTTAATCATTCCTTTTAAAGCATGTTTCATCAAATGAAAAGGAGCATGCAAATTGATATCAATAACATCCATCCAATCTTTTTCACTCATTCTTAGTAGAATATTATCTCTATGGATACCCGCATTGTTCACTAAAATATCAATTGATTGATTTTCTTCTTCAATAATTTGAAAAAAATCATTGATAGAATCTCTGCTTGAAATATCACACTGAATTGGATATAAATTTGTAATATTTTCAATATTTTTTAAAGATTCTTTCGATGAGGCCAAAGCATATACTTTAATATTTTCCTCTGCTAGTCGACAGGCAATTTCTTTGCCAATTCCTCTTGAACCACCGGTAACAACTGCGCATAAATTATTTGAGAATTGAAACATTTTATATTAAATCATTATAGGAATTATAATGATTAGTTTGAAGCGAATTATCAATTTTTTTAACCATTGCACTTAAAACACTTTTTGGGCCTAATTCAACGAAAGAATTAGAAAAAGATTTAAGTCTCAAAACAGAATCATACCAAAGAACTGGACTATCAACTTGGTGAATAAGAGCATTTTTAATTTCATTGATTTCTACTTTAGCTTTAGCATCAATGTTTGAAATTACAGGGATTTTAGGTTCAAAAAATTCAGAAGCCTCAATTATTTTTTTTAATGAATCTTTTGCATCAGACATCAAGTTTGAATGAAATGCTCCACTTACTTTTAAAGGAATTGATTTAATTTTTAGAGAATTGAGATGTTCAGATGTTTTTTTTACAGACTCTGTAGTGCCAGAAATAACAATCTGATTTACAGAATTGATATTTGCAATTTGTGAAGAATAAAGTTTGCAGATTTGATCTAATTTTTCTTTTTCAATTCCAATTACTGCTGACATTGCCCCTGGATAATTTTCTTCGCAAATATTCATAGCTTTAGAACGAGCATGAACTATTCTTAATCCCGTTTCAAAAGTGTATGTTTGATTTGAATATAAAGCTGAGAATTCTCCAAGACTATGCCCAGCCACTGCTTTTATTTCCCAAATTTTTGGACTTAAAAGATCAAATAAGCATACAGAATATAAATAAATTGCAATTTGAGCATACTTAGTTTTTCTAAGCAATTCTTCATTGTCTGAGAACATAATTTCTTTGATGTTAAATCCCAAAATAGATTCTGCATTATCAAATTTTGATTTTACGTTTGGGAATTCGTTATAAAGATTATATCCCATGCCAGGTCTGTGAGATCCTTGACCTGTGAAAATTAAAACATGAGACATTATTTTTCGTCGATTGGTTTACCTTTGTAATAAAGGATTCCATCGTGCTCGTAAGCTTGATGAGGGAGATGTGACTCTCCTGTATTCTTACATTTTACTGTATGAACTAAAGAAGATTTATAATGAGTTCTTCTTTTTTTCGAACGCGCTTTTGACTGTCTCTTTTTTGGTAACATTTCTAAAAAATTTCAGGTGCAATATAATCAAAATTATAACACATAAAAAATTATTTTTTAAAGTTCAATTCGATCAATCCAGCATTCACAATTTGTTAATTCTTTTAAATTGATTAAAAATTTCTCAGCATTGTTTCTATTTGAAAAATAACCAAATCTTACTCTATAATTGAATTGAAAATCATTTTCATTTTTTTGAATATATGCCTCAATTTTTTGATTATTGAGCTCTTGAACCATTTCATATGCTTCAGAAAAGCTTTTTTTAGCAGCTATTTGAATTGTAAAGTAAGATGAATCATGTGCCGTTATATTTTTTGATACTGAATCTGAGCTACTATTTAGTTTTATTTCCAACCAACTAGATTCTTTATTCTGAGAAAAAAGAGAAGAAATTAGAATTATGAAAATAATTAGTTTATTCAACATTAAAAGAAATGATTTATTTCAATTGTAGCATTTTCGTTACTATCAGAACCATGAGTAGCATTCATTGAAATATCGGTTCCGAATTTAGACCTAATAGTTCCCTGGTCTGCCTTACTCGGATCAGTAGCTCCCATCAAATTTCTCCACTCAATCACAGCATTTTCTTTTTCTAGCTTCATAATGTGTGATTCAAATGAAGTCATAAATTCTACAAGTTCAATAAAAAAAGGCTTATCTTTATGAACTGCATAAAACCTTTCTGCTTGTTCTTTAGATAGGTGGATTGTTTTTTCTTCAGCAATTTTAAATCCATTATCTAAAATTTCTGAACGAATATCTTCTTTATAGCCTTTTTTCATCGCATCCGGTTTAATTATTGCAAGCGTGTAAATCATTTTTCTCCTAATAGTTTTTTCATTGTTATTCCAATTTCAGATACTGTTTTTGATACTGAAATTCCACATTCTTTTAAAGTTTTTATTTTTGCTTCAGCTGTTTCAGATCCTTCCGAAATTATTGCTCCCGCATGTCCCATTCTTTTTCCTTTTGGAGCAGTTTGGCCAGCAATGAATGAAACAACTGGTTTACTAAAATTATTTTTAATCCATTTTGCAGCTTCATTTTCCATATTACCACCAATTTCCCCAATTAGAACTACTGCTTCGGTTTCAGGATCATTTTCAAAATGTTTTAAAATGTCAATCATGCTGGATCCAATAATTGGATCTCCACCAATTCCAACTGCTGTACTAATTCCGTATCCTATATTTACAATCTGATCTATTGCTTCATAAGTCAATGTTCCTGATTTAGATAAAATTCCAATGGGTCCTTTTTTACATATAAAACCTGGTGTGATTCCCATTTTAGATTCTTCAGCAGAGATTAATCCTGGACAATTAGGACCAATTAAAATAGAAGATGAAGCATCTAAAGCTATTTTAACTCTTTTCATATCTCTTACAGGAATTCCCTCAGAAATACAAACAATTAAGCTAATTTTTTCTTCAATTGCTTCAAGAATAGCATTCGCAGCAAATCTTGGTGGAACAAAAATTATACTCGCATCAATCTTAAACTTTTTCATCGCATCTTCAATACTATTAAAAACGGGAAGATTGTTTTTAGTAGCATATTGACCACCTTTGCCTGGTGTAACTCCACACAAAATGTTAGAACCATAATCAATCATTTGTTCAGTATGAAAAAGGCCTTCAGATCCAGTAATACCTTGCACTAAAATTGAAGTTTCTTTTTTAAGTAAAATTGACATTATGACACCATAGCAACTGCTTTTTTTGCAGCTTCTTCAATTGTTTCAGCACTTTCCAGTTTTATATCTGACTCATCTAAGATTTTTCTTGCTAAATCTGCATTTGTTCCTTGCAACCTAACAACCACTCCAACATCTAAGTTCAATTCTTTTATAGCCTGTATAACTCCATTAGCAACACGATCACATCTAACAATCCCACCAAAAATATTTATTAAAATTGACTTAACATTGGGATCTGATAAAATAATTTTAAATCCATTTTTTATAGTATCTACATTTGCAGCTCCACCCACATCAAGAAAGTTTGCTGGTTCTCCACCACAATGTTTGATAATATCCATAGTTGCCATCGCTAAGCCCGCTCCATTGACCATACAACCCACATTTCCATCAAGTTTAATATAGTTTAAACCAAATTCTGATGCTTGAAGCTCTAAGGGGTCTTCTTCAGTTTTATCATGGAAAGAAGATATTGTTTCCTGCCTAAAAAGAGCATTTGAATCAATATCAACTTTTGCATCTAGAGCAATTAATTTTTTTTCTGTTGTAATAACTAAAGGATTAATTTCTAGAA
>sequence24
AAAATTAATAATTTGAACCTTAAGGGAAGGTTAAACGAACTCATCTTACGAGTATTGTTTTAAAATTTCTCTGGCAACTCTTAGCTTATGAACTTCATCTGGACCATCATAAATTCTTGCTGCCCTTTCATGTCGGTACCATAATGCAAGTGGAGTATCATCTGTCATTCCTAAGGCTCCATGAAGTTGAATAGCACGGTCTAAAACTTTTTGAAGTACATTAGCCACGAAAAATTTTATCATCGAAATTTCGATTTTTGCTTCTTTCGCTCCCTGGTGGTCAATTTTTTTGGCAGCATCTAAAACTAAGAGTCTTGCCGCATTGATTTCCACTTTCGAATCAGCAATCCACGATTGGGTAATTTGTTGATCAGCAAGAGTTTGATTGGCATTTATTTTTCGACTGGTCGCATGTTGACACATTAAATGAAAGGCTCGTTCACTGATTCCAATCCATCGCATGCAATGATGAATTCTTCCAGGACCTAATCGTTCTTGAGCAATACTAAACCCTTGCCCTTCTTTTCCTAATAAAAAACTCGAGGGTACACGACAATGGGTGTATTTGACTTCAGCATGAGACATCCATCCATCTCCTTCATCACCCATTACAGAAATATTACGAACTATTTGAAATCCTGGAGTATTAGTAGGAACAATAAATTGACTAGCTCGTAGATAGGGATTAGAATTGCTTGGATCAGTAATGGCCATCACAATAGCAAAACTAGCACCATCTGCAGATGAGGTGAACCATTTATGACCATTGATGATATAATCATTTCCGTCTTTAATGGCTGTTGTATTCATGAGGGTTGGATTGGATCCAGGGTTGTCAGGTTCAGTCATTGAAAAACAACTGCGAATTTTCCCTTCCAGCAAAGGATTCAAAAATTGTTCAACTTGATCTGAAGTTCCATGTTCCAATAATATTTCCATATTCCCGGCATCAGGCGCTTGGCAATTAAAAATATAGAGACCAAAAAATGCTTGACCAAAAATTTCATACAATTGACCTAACTGATAAAGATTCAAGCCTAACCCTCCATTCTCCTTCGAAATTTGAGGAGTGTAAAGACCAGCTGATTTTACTTCTTGACGATACTGTTCTAAAAAATCAATGGTTTGAGAAAAATTATGTTTTTGAAGATAGGGAGCTTCATCAACTATAAGGCGATCAATAATTTTTGATACCTTACTTTTAATTTCTAAAAAATCTTTATCAGTCACGTTCATTTAAATATAGGTCTCAAATTCTTTGGGTAAATAGCTTTTATTAAAGGTTTTTAAATCCAAAGTATTATTATAATAATTAAAGTCCGTCACTGAAACATTTTTAATTCCAAAATTCAATTTCAAAATTTCTTCATCTGAACACTGAGTAGCTAAGGCATACACCGCTGTAATTGTTCCTCCTGAGGTTACAATTAAAACATTATCTCCAGAATCAGTGGCAGAGTCTAAATAGGCAATGGTTTGTTGAATTCTTGACAAAAAATCTGGGTAAGATTCAAATTTTTTTTCGGATAAATCTAGTTCATTTTTCATCCACTTTTTTGCGACTTGCTGAAATAATTTCAAAAACTCACCATCTCGATTTTCAATGGGCATTTGCTTAAAAATTGCTTGAGCAGGTAAATCAGAATTCAACATTTTAGGAATGAAATACATTGCAATCTCCATCAATTGATTTTCTGCAAATCCTTGGATTGTTTCACAAGAAGACATCTTTTCACCATACCCTTTTTCAATCCCCTGAAAAGTTTGAAAATGTCGTTGATGAGGACCTGAGAAAATTTTTTGAAAATTGTGATGATCTTTTTTGAGAGCTTGACCAAGCAATTCGGATTGTTGCCATCCTTGTTGACTTAAATTATCATAATTCGCTTCCCCAAAAGAAGCCTGTCCATGACGAACAAAAAATAAATGTTTTGATATATGATTATTCATAAAGAAGAATGACTTGCTCTGCAACGCATGCTGGCTTGGATTCACCTTCAATTTCAATGGTCACTTCCAAGATTAGTTTAGCTCCATTTTTTAAACGCTTAAACTCCTGTAAAGCAAGGGAGGCTCTGATTCGACTATTCACCACAACTGGTGCAGTAAATCGTACTTTATTCAATCCATAATTGACAGCCATTTTTACAGACTTGATAGAATAAATCTCATTCAACATACTAGGAATAAAAGATAGAACTAAAAAACCATGAGCTATAGGCTTTTTATAGGGAGAAAATTTCTTGGCCATTAATGGATTAGTATGAATCCATTGATTATCATTGGTTACCCTGCCAAATGCCCAAATACGAGACTGAGAAACTTTTTTCCATGCACTTTTTCCAAGTTCTTCACCTAGAAGTTTTTCTACTTCATTTAAATCATTAAAGATATTCATTATTCAAAATACGATTTTTTAAAAAATCAGACAATTGCAAACTTTTTGAAATAGTATCTCATCCAAATATAGGAGATTAAAGCTGCAAAAATGATTGCAATGACTTGAGCATACCAAACATATTCAATGGGTTTTTGTATTATATAAAAATAATAGGATAAAGGAGCAGTTATTAAAAGCACTCTAGTAATTGTTGTTACAAGCAATGGAACCCCTTTGCCAAGCGCTTGACAAATTCGAGAGCAAATGACGCTATAGCCAACAAAGGGATAGACAAGGACAATGATTTTTAGGTAAGTAACACCTATGGCAATCACATCCTGATTTTCGCTGAAAAGAGGTAATATTTTGCTAGCAGAAATGTAAAGAACAATGACCAATAATAGAGTTAAAATAGTCGCATGTCGTAACCCATAAGCAACAATACCTCTCAATTTTTCAAACTCTTGAGCTCCGTAAAACATGCCGACAATAGTAGTTAAGCTTATAGCGATTCCAAGGATAGGAATAAAAATCAACATATCTAATCTTGAAACAACTTGATAGGCAGCAACAGCTTCATTTGAGTAGTTAATAAGAATTCGATTCATGACTACTTGACCGAAAGAAATGATTAACATTGATAAGGAAGATGGAATCCCAATTTGAAAAATTTTTGATAAAATTGGTTTGTTGAATTGAAAATCTGGAAATCGAAAACTGAGGTAGGTGCTTTTTTTAATAAAAATATAGTAGATATAAGCAACCACCATGAATAATTGACTCAAAACCGTTGCAATAGCAGCACCAGGGACTTTTAAATCTAGAGTAAAAATGAAAATTGGATCTAAAATTAAATTCATAATTGTTCCAAATAATCCTATGTACATCGGTATTTTAGTTTCTCCTTCTCCAGCTAAAATTGCTCGAAAAAATAAAGAAAACACCACTAAACCTATCCCATAAATCAAAATTTTTAAATAACTCAATGCAATATTAAGAATCTCTCCTTCAGCACCAAGCAAGGTCATCAGATCTTTTGCAAAAAACTCCCCTAGAATTGTTAAAAACAATGTGATGACTAAGCCGATTAAAATAGTTTGGTTAGCCACTTTGTCAGCACTTTCTTTATCTTTCTTACCAATATATTGCGCGATGGTAGCAGTAACACCGGCACCCAAGCCAACTGCCAATCCAATGATTATAAAAAATAGAGGACTAACAAACGCCACTGCTGTTATTTCATCTGCTCCAACCCATCCGATGAACATAATATCAATGACATTAAAAAGAGTTTGGACTAACATCCCCGCAACAATAGGTAAGGCCATTGTCCATAATGCTTTTGGGGGATTTTGAAGAAAGGATTCTAGACGGGAAGATTTACTTTCCATCTTCAATCAAATAAATAAAGGAATTCCCCGTACCCTCTTTTTTTCATTTCATCCAGGGGAATAAATTTTAAAGCAGCAGAGTTAATACAATAGCGTAACCCCGTTGGATTCGGACCATCATTAAATACATGTCCAAGATGCGAGTCGCTCGTTTTGCCTTTAACTTCTTTTCTTGGCATAATCAATGTATAATCATTTTCAAAGGTTAGACTTTTTTTGTCAATCGTTTCATAAAAGGATGGCCAACCTGAACCAGAATCATATTTATGTACGGAAGCAAATAATGCCTCACCTGAAACAATATCTATATAGATGCCCTTTTCTTTGTGATTCCAAAACTCATTGTCAAATGCTGGCTCAGTTCCACAGAGCTGAGTAACATAAAATTGCATTTCTGTAAGATTTTCTTTTTGTTTAGACATATCCAATTTTGATTCTTGTGAAAAACTTATGCTTAAAAAAAGTAAAATTCCTATTAATTCTTTGCTAAAAGTCATTTATAAAGTTAAACACAGTAAAGTATTTTTTATTTGGTTTTTTTTTGATATGGTGATACTTTATGCCAAATGGGGATTTTGCGTCTAAGCATTTCCCTTGTGTATAAACAATATAGAGAGGTATAAATAATGAAACTGATTAAATCAAGTTTTCAATTTTTGTTTGTCTTTCTTACTGCTATGTCATTTGTGTTTGCACAAACTGTTAGTGGTACTGTCTCTGGTGTAGATGGTGAAACATTAGCTGGTGCAAATATAATGGTTGAAGGAACTGATATGGGTAGTTCATCAAATACTGATGGATCTTATTCTATTTCTGGTCTTAGCAACGGAAGTTATACAATCACAGCTTCATACATTGGATATGAAAGTGAAAGTATTACAGTCACTATTAGCGGTGGACAAACAGCCAGTGCAGACTTTATGCTTGATAAAGGCAATCTTCGCCTAAATCAAGTTGTTGTTTCTGCATCTTTAAAGAAAGAATTAGTTACAGAAGCTCCTGCTAGTGTGGAAGTATTCAGTGGTGAAGAATTAGAAGCTCGCCAGGGTGCTACTATTGTGGATGCTTTTGCTAATAGAGCTGGTGTTGAGACAATGAAAACTGGTATCGAGTCATCTAACATGACAGTTCGTGGTTTTAACGGAGTTTTCTCCGGTGCGATTCACGCTGTTCTTGACAATAGATGGGTTCGTGCTCCCGTTGTCAATGCTCAACTCTTACAATTCATGAATGCTGATGATTCTGATGTTGCTAGAGTCGAGCTTGTTCGTGGTCCTGCTGCTCCTATGTATGGTCCAGACACTCAACAAGGTGTTCTAAGCATATTTACTAAATCTCCTTTTGATCAAGGCAATAGAGTGTCTATGACTCTTGGAGAAAGAAATTATCAAAAAGTTTATGGTCGTATTGCTCAACAATGGATGGGTGGTCGTGCAGCTACTCGTGTAACTTTATTACACAGAACTTTTGAAGATTGGTCTTCAAACATGCCGAAAACTATTCAAGAAGCTCAAGCAGAGGGTCACCTTTACTACGAGCCTGAATATATTAGACGTGGAATGCCAATACCAACTTATCCGTATATAGATTATGCATCTTCAGAATTTGGTGATCCTGAAGGAGGAGTATTAAATAGTGCCGCACATAGTGAGCCCTTTAAACCTTCTGTTACCAGTATTGATATGAAGACTGAAATACGTCCTGACTTAAAATCAACTTTAACTATTAATTTAAGACAAGCTCAATTATCAGCAATTGAGATGACAGGTGTAGGTCGTGCTTTATCCGATGATACTACATTAAGTCAAGCTCAAATTGCTTATAATCGTCAAGATTTCTTAGGTGGTAATTTGTTTATTAATTTCTTTACAAATATTAATGAACAAAAAACAACTTACCTTTTAAATACTGGAAACATTATTTATGACGAATCTTCCAATCGTGCTCTTCAATTACAGCACAGTTTAGATTTAAGAAACGGTCAAAGTTTAGTTTGGGGATTAGACTATCTTGATAGAACTCCTGAAACCAAAGGAACTATCAATGGTAAGAATGAAGATAATGATAACTTCAACAACGTTGGTATCTATTATTCATACGAAAAGAAATTCTCAGACAGATTCAAATTTGTCAACTCTGGTAGAATCGATAATAATAACTATTTAAGAGCAATTGGTACTGATTACGTCTTTGCTCCTAAAATTGGTTTTGTATGGAACAATCCTGACGTTAGAGGAAACTTCCGTTTAACCTATGGTGAGAATATTGATCTTCCAGGTAATTTTACTAAGAACTTAGATATCGCTGCTGCTTCTAATGTGGTTTATGCTGGTTTAGGAATTAATTTTGCTCCTTTACTTGGTTTCCAACCAGATTTTTCAGTAAAAGCGATGGGATCTACAACCACTGGTTGGACTTATCAAAAAGACGCAAATGGTAATACCATGTTCCGTTCTAATTGGTCAACAGCTCTCGGTTTAGATACAAATACTTATTATTCAATGAACAACAACACGATTAATGCTGCTGCATGGGGTGTTTGGGCGCCAATCATTGGTGGAGGATTCCTCCAATCAGCTGATGGTGCTGCCTTCTTAACAGCCTATGGTAGTGCTGTAGGTCAAGCTGCTGGTGCAGGATATATGGAACAAGTGGTAACAACTGTTTATACACAAACTTACCAAGGATATATTGATGCTGGCGCTGATGCTGCAACTGCTGCTGCTGCTGCTCAAGCTGCTGCTGCTGCTGCTGCGGAAGATCCAACATATCTTGCTGCTGCTGCTGCCTATGGTGCTGAATATGGTGCTAATGCTGCTGCTACAGGTGCAGGAGATCTTGTGGCTATGTTAGGTGCAACTGCTCCTAGCGCTTTTGGAAATGTCACAATAGATCTTGATGGAAATGTCTTGAATCCAAATACTTCTTTCCCTGATTATCCTCAAATTAAAGAGACAACATGGGCGCAGACTGAATTTGGTTACAAAGGTCTAGTTGGCGATAATATGTCATTAACTGTTGATGTTTATAACTTAAAAGTTTCCAACTATGTTACTGCTCTACAAAACATTAGTGGTTTAACTAACGTAGTAGGTGATGGTGGAAGTTATGTCGCTTCACTAGCTACTTATCTAGCAACTCAAGGAAATGAAAATCTCGCTAACATGGTTGGTGCATTTGATTCTCCTTTAGCTGGAGGTAATGGTAACGGTACCGGTCTTGATGATCTTGCTGCTGCTATCATTGGTGGAGTTGCAAGAGTACCGATTGGTGCGATTGCTCCTGCTCAATCACTCTATGGTGGTAATTTAGTTTATGGATATAAACAATTAACAAATGACCTTCACTTAAACGGTTTAGAAGCAACTTTAAACTACTTCCCTAACAATAGTTGGAATTTCTACGGAAATGTTTCTTTGTTAGATAAAAATTCAATTGATGTAGATTTTGAAGGTGTGACTAATACTGTTAACATGAATACTCCTAAATTTAAATTAGGTGCTGGAATGCAATACATCGGTGATGGTGAATCTTATGGTCTATCTTTAAGATACCAAGATTCATACTACTCTGATGGTTTCTCAGGAAATGCTGGGAGAATCGAAAGCTTCTACACTCTAAGTTTAAATGCTAAATGGGATGTAGATATGTTTGAAGGAATGTCAGTTGGAGTTTCTATTGATAACTTAACTGATATTGTTCACAGAGAAACTTTCCTAGGACCTGAAATGGGTAGATTCTCTACTCTTTCAGTAGGATACGATTTCTAATAAAAAAGAAATTGTAAGAAATAAAAAAGCCCTCGCAATGAGGGCTTTTTTATTATACAAATCAATATTGTATTACCAAGGAAGACTTGTTAAATCAACATTCCCGCCAGTAATAATCAATACAAGTTTTTGTCCTTGAAATTTCTCTTTATTGGCTATTAACGCAGCTAAGGTTAAAGCGCAAGAAGGCTCAATAACAATTTTCATTTGTTCCCACATTAATTTAGTGGTTTTAATAATTTCATCTTCAGTAGCTAAAATAATATCATCAACATTTTCTTGAATGATCGGTAAGGTAAGCTGACCAACAATAGCCATTAGTCCATCAGCAATTGAAGGACGATGCTCCATAGGAATTCTTTTTTGTGCATTATACATTTGATAAGTATCATCAACATTCAAAGGTTCGCAACCGATAATTTTTGCTCGAGAGCTCTTGCCTTTTAAGGCAATGGAAATTCCACTTATTAAACCGCCCCCACCAATGGGAACTAATACTCCATCAAAACCTGAAACTTGTTCAAGAATTTCCAATCCAATGGTGCCCTGCCCTGCGATAACATCGTAGTTATCGTAAGGATGAATTGCAACGCGATTATTGTCTTCGATTGTTTTAGCATATAATGCATCTCTTTCAGACATTTTATCACAAAAAACCATATTTCCATTATAGCGTTTAACATTCTCAATCTTCGCCTTGGATACACTTCTAATCATTACAATATCCGCATGAATATTTTTAGAGTTAGCTGCGCAAGCAATAGCGCCCCCATGATTTCCAGAAGACTGACAGGCTACACCACGTGATTTTTCTTCTTCATTTAAGCCAAAAATAGCGTTAGATGCTCCTCTAATTTTAAATGAACCTGTAGTCTGAAAATTTTCACATTTAAAATACAAATCCATTCCAAGCATATCATTGAAAAATTCAGAGGTTAAGACTGGAGTAACCTTAGCAATAGAACTGATACGTTCTTGAGCATCCAGAATATCATTTAGATTCGGTCGATGGTCTAACATTTACTTAACAAACAAAAGTTTACCAACAGAATTAAATACATCGGATTGAATCTGATAAAAATAAACTCCGCTACTCACAGTATCGCCATTATCATTTTTAGCATCCCATAAAACAGACTGATACCCAAATTTTTCTTCATTATCTATAAGAGTTCTGACAATTCTACCTCTAATATCGATAATAACCATAGTGATTCGTGCAGTGGTTGTTAAATCAAATTCAATCGTTGTTCCACTTTCTCTGAAAGGATTTGGATAACTTTGACCTAAACGATAGGTAGAAGGCGCAGTTTGAATCAAATTATACCCTTCCGATAAAAGAGAATTATTGTTATCATATGCTGCATAACTTACTTTGATAAATTCATAAGTATCTGAAAGGTTTTCAAAGTTAAAGTTCACTTCATTTCTTTTGGTTTCAGATGTTGGATTTAAATTTCCAATTTCAACATGAGCAACACCAGTTTCAGAACTACTTGCACTTAAAACCATTTCATTTAAAATATTCGATGGTTGGAAATTAATTAAGTATCTATCTGGATTATACTCAAAATATACCTGAATTGATTCAGATTCATCAGGGAAACGTAAAATCAATTGATCATTTAAAATACGTAAAAATGGATTGGTACCTTGAACAGTATAATTAGGTGTAGACAATCCATTTTCTTCAAGAGACCATAACCACAAGGCTTTAAACTGATTAGCATCCTTTTCATCTGAAACGCCATCAAAATTGGGGAAAAGATATGGCATACTTCCTGTCACAGGAGCTATATCAATTCCTGGATATCCAGCAATAAACGCCTTGTAGTCATCAAAGTCAATTACCCAATCTCCATTA
>sequence25
GAGGCAGTAGTAAATTGTTGAACAAAGTTGTCAAAAGATTCGAAAGATTCTTCAATTTTTGAGGATAGTTTCGATTGAATTATCGTTTTTCCATTTGGAGACATTTGATTCCAGTATAAATTATGGTTCCAGGCTTGACCAGCGTTATTGAAAATTTTTTGCTGTTTTTCCTGAAAACTTTTTATAACTATTTCATCTAAACTCATACTTTCGTATTCTGAGTTTTCAATCAAATTATTTAGCATTGTGTAATATGCTTGATGATGTTTTCCATAGTGAAGATCAACGGTCGCTGACGAAATAATTGGGGATAAACTATTTTCGTTGTAAGGTAGTGTCGGAAGTAAAAATTTGCTCATAATTTCTCCATAATTTTTTTTTATGTAATTAAATTTTAAGTCAATTTATAAAATTTTAATCAAATATATGAGGTATAAAAATGACTCAGGTTCTTTTAGGCGAAACAGTTGTTCAATTAAATGGGAATCTTCCTTTAGTAGGTTCGCAAGCTCCAGATTTTCTATTAGTGGAAGGGAAAAACTTAGAAAATCGTTCGCTTAGCGATTATTTCGGTAAAAGGATAGTTATGAATATTTTTCCAACAATAAACACTCCTGTTTGCTCAGCTTCCGCTAAACGATTTAACGAAATTGTTGAAACATTAAATGATGTTATCGTATTGTGTATTTCTAAAGATTTGCCATGGAATCAAGAAAATTTTTGTTCTGAGTACGGTTTAAATAATGTTGTTTTCTTGTCAGATATGAGAAATCATCAATTTGGGGAAAAATATGGAATCATTCACCAAAACGCAAAATTTCAAGGACTCTTAGCTCGATGTGTTCTTGTATTAAATCAAAATGGAACTATCGAATACACAGAACTAGTTGAACAAACTGGACATGAACCTGATTACGATAAGGTATTAGAAATTCTTCAAAAGTAATTATTTAACAAGAAGTACAGGACAATTACATTGTTTAGATATGCTGATTGGCTTACTTCCAAAGAAAAAGTTTTTGATAGGATTTTTATTGGATACTCCTAAAGAGATGATATAATCATCTTTTGCAAATTCTGTAATCGACTTTACCGGGTCTCCTTCAAGGAGAAAAGTTTCATTTTTAATCTTAAGTTTTGAAAGTTGATTAGAGGTTGTCTCAATTGATTTTACTACATCCTGCTCTTTCTTATCTTTAACATAAACAATATGTATTTCAGTTTTATAGTGTTGGGCAAGTCTAATAGCCATTTCAGTTGCTTTCTTTGACCCCTTAGTATTGTTTATTGGAAGAAGAATCTTATACTTCTTATTAAATGAAAAGTTTTTTACAACTAGAATTGATGAGTGAATGAATTCTATCAAATCATGATAGATTCCTTTATTTTTCCCTCCACCAACAACAGTGATGTCATGTCCATTCGAAAAAACTTCATCTCTAAGTTGATCAATAATTTCACCAGTTCTTAAAATCAAATCTATGTTATTCGAGTTGTTTGATTTTAATAATACTTTCATTCTAGAATTATCTTCATCTATTAATAAATGGTCATCGAAATTTGCAGAGGAATCACTATCAAGATAACCTTTGGTTTCTAGAAAATTACAAGCCCATTCTAAGGTTCTGATTCCAGGCCTATATAGTTGTCTATTATCTAAGCTTTGATGAACAACGCTAACATCTTTTTCTGAGAATTGGCTAATTTTTTTGCCGACATATGCTATAGTTGATGATGCTTCAAGTGCACTCGCAATTTCTATACCCATGTTAAGTGTGGGTTTAGAAAAATCTATTCCTCCAATAGCAATCAGTATTTTCATAAATGTATCCAATAAAATTTAGACATAAAATATAAGATAAGAATGGAACTTAAAAACATCAATATACCTACTCTGAAAAAAACTTTTGTATTAACTAGACCTGTTGAATAAATAATCATAGCTGCAGGAGATGAAATGACTGTTAAAAAAGAAAAGCTAGAAGCAATAGCTGATGAGAGGGCAAATGTTACATCATGAGGCTGTAGTTGAATAGCCATAGGTCCTAAAAGTGACACGGTAGCAGAGCTTGTAAAAAAATTTGCAGTTATTCCACTAATGATTGCCAAAAATGTCCAACTCATATTTTCAGAACCAGCAAAATACTCTGATAAAAGAAAGTTGAATTTCTGAACAAGCCAACTAGATGCTCCCGTTTCATTTATTTGAATTCCCAGGGAGATTGTTGAAGCAAATAAAAGAATAACTCCCCAATTTGTATTTTTGTTAATGGTTTCCCAATTGATCATCCCAAAAAGCATAAAAATCAATGCCCCGGAAATTGCTATAATACCGAGGCCAAATTTTTCATTAAACAAAAACCATGATACGACAACGGATAAAACAATGACTAAAGCAAAAAGATTACTCATATTTTCCTGGGGGGTTCTTTTTTTGACATCTCTTTTATAACCTGAAAGTTTGATATTTTTTAAAGTTGATGGAAAGGCAAATTGAAGAACAACATATGCGACAATTAATTGAATAAACAAAATCGGATAAGCATGTTCCATCCAATTCCAATAATCAATTCTAATATCACTAAATTCCTGTAAATAATTTATCATGATAACATTTCTAGCCCCACCAGATGGAGTGCCTATCGATCCAATAATGGTTCCATAGGCTATTGAGAAAAGAACCAGTAAAATGGCATTTTTGCTGTCACTATTTGATGTATCTAAGTTTTTAATCATTGATAATCCAATGGGTAACATTAGCGCAATTACAGTATGTTCCCCTAAAAAAGAAGATAGAATTGATGAAATGAACATCAATCCTCCAACTAACATCCTTTTTGATTTTCCAAAAATTTTCAGAATGATTTCAGCTAATCTTATATCCAGTCCTTGATGAATAATAGCTATTGCAAACATTAATGATCCCATAACAAATATCACAGCATCATTCATTAGAGTCGAAGACAATTCTTCCGTTGAAACGACTCCGAGCATAACTTGTAAAACTAGAGAAAGTAGTGCTATTGCAGGGAATGGAATTGGTTCAGTCATTACTAAAATGAACGTCATAATTAAAATTATCAGACTATGATAAGCAGGTATAGATAATCCAACTGGGGTTGAAAAATTTAAAAGAATCGCCCCAATTAAGATACTAAATAAAAACCATTTTTTTTGTGAAAACCAATATAAAACTGATGACAGAATTATTTGATTTGAATTGTTCATGATACGTAATTTATTAATATAATTTTAAACTTATCTATGAAAGTTTTATTGTTGACTGATTGATAATAAAAATGTAAAGTTTACCTAAATTTTTTTTTGAATATTTATGCAAATTTTTCCAAAATGGACAAATAACTTTCCGGGAATTTTTCTCATCGGAGCTTTTTTATTAGTTTTTTCTTTATCTGCATTTATTTGGTATTATGGTTCTCCTTATTATACGGATGTTGGTTATGCACCTAAACAACCAGTTCCATATAGTCATAAATTACACGCTGGGGATTTAGGAATAGATTGTAGGTATTGTCATGTAGGTGTTGAGCAAGGTTATTCGGCAGTAATTCCTCCAACAGAAACCTGCATGGGTTGTCATACGTATGTTAAAACTGACAGTGATAAATTGGAATTAGTTCGTCAAAGTTGGGAAACAGGGATGCCGATTGAATGGGTTAAGGTTCACATGCTTCCTGAATACGCTTATTTTAATCATAGTGTTCATGTAAATGATGGAGTTGCATGTATTACATGTCATGGGAATATCGCAGAAATGGAAGTAGTTTATCAAGCTGAGCCATTAAGCATGGATTGGTGTCTTGACTGTCATAGATCAGATTCGCCAGAAGTCAGACCTGTGAGTGAAGTTACAAATATGTATTGGACCCCACCTGCTGATTACGATAAATTTATAGCTTCATGGATGGTCAATCATGCAGAAGAGAGACCCGTAGGAGATTGTCAGAAATGTCACAGATAAAGAATAAAAATCAAGAATTTGTTGATGTAAATCAGCCTGAAAATCAAACAATTTCTAATCAGAACTTTGGCTATTGGAAAAGTTTAAAAGATATTTCTTCTTCAGAAGATTATGATAAATTTCTTAAGCAATCAGAGCATAATGAAGATTCCAACATTTCAAGAAGAAATTTTATGTCCCTTATTGCAGCATCTGTTGCACTAGCTGGATTGGAAGGTTGTAAAAAACCTGTTCAAAAAATTATACCTTATGTTGAAGCCAGAAGAAACACTATTCCTGGAATACCAAAGTATTATTCTACAACAATGCCATTTAAAAATAATGCTTTTGGTTTAGTTGTTGAAAATCACGATGAGAGACCTATTAAAATTGAAGGGAATGCTTCACATTCAATAACAGGTGGAAAATCTAATATCTATGTTCAATCAAGCACCTTAAATATGTATGATCCAGATCGTGCAAGAGGTGTAAAGTACAAAGGAAAAAAAATTGATTGGACAAAATATCTTGAAACTATCCAAAGTTTAAAAGACAATACTGATAGCAAAGTGGCCATTCTTTCAGGAGAATCATCTTCATTATCCGTTAAAAAAATAAAAAAGGATTTTCTTAAAAAATTTCCAAATTCATCATGGACCATTTACGAACCCATAAGTAATGAAAATGTGTTATTAGGTATTGAAGCTGCTTTTGGAAAAAAATATCAACCGATTTATAATTTTGATAAAGCTCAAATTGTTTTATCTGTAGGTTCAGATTTTCTCGGAGTAGATGATAATAGTATCTACAATACAAGAACATTTTCTTCAAAAAGAAATTTAGAGAACGAAAATTCAGAAATGAATCGTTTGTATGTTGCTGAATCTTCAATGTCAGTGACTGGTTCGTCTGCCGACCATCGTTTAAATATTAGAGCTAGTGAATATCATAATCTATTGGTTGAGTTAGCTCATGAACTAAAACAGTTAGGAATGAAAATTGAAGTTAATGCTAAAAAATCAACTAACAATCTTTGGATAAAAACTGTTGCAGAAGATTTATATGTAAATAGAAAAAAATGTATCGTGATTGGTGGAGATTCATTAGGCGCTGAATCTCATGAATTAATTGCGACGATCAATTTTCTGCTTGGATCAAATATTGATTATTATCCATCTGAAAACACTTCCTCCATATCTGATTTACAGGTCTTGTGCAAGAAGATTAAAAATAAGGAAGTCGATACTCTATTTATTCTAGGCGCAAACCCAGTTTACGATGCCCCAGCAGATTTAGATTTTGGTAATTTAATTGATCTAGTTCCTAATACTATTCATTTGAGTAATTATTATGATGAAACATCTAAAAAGTGTGATTGGCATATTGCTGAATCTCATTATTTGGAAACATGGGGTGATGCGTGCTCTATCGATGGTTATTTAAGTATTATTCAACCTCAGATTCAACCCCTTTTTAATTCCAAAAATATTATAAATGTGTTGTCATTGTTAGTTTATGGAGAAGATATCACTTCTTATGATTTTGTTAAAAACAATTGGAAAGAAATTCTTGCAAGTTCAAACTTTAATCGTTCTTGGGAAAAAGTATTACATGATGGCTTTTATATTAAACAATATGTTGGTCCAGTCAAAATCTCTAGAAAATCATCAAAATCTTATTCATCACAAAATGTCCAGAATCAGGATTCATTTGAATTAGTATTTACTCCATCTCCAACTGTTTATGATGGTAGGTTTTCTAACAATGGTTGGCTACAAGAGTTACCGAAGCCTATCTCTCATTTAACTTGGGATAATGCTGCTTTTATTAGTCTAAAATTAGCGAAAGATTTGAAAGTCCGTAATGGTCAATTATTACGTATTAAATCTTCACATTCTACAATTGAAATTCCGGTGTGGATTTTGCCTGGTCAAAATTCTAAAACTATTACAGTTGAGCTAGGATATGGACGAGAATTCTCAGGAAGAATTGGAAGTGGTGTGGGTTTTAACGTGTACCCTTTAAGAAAAACTGATACGATGCATCTTATTACTGGTATTGAGATCGAAGTTTTAAATAAAAACTATCCTTTAGCAGGTACTCAGGATCATTATGGCTTAGAAGAAGATCACAAAGCTGCTCCAGGATTTTCATCATTATCATCTGATGCAATTCAATCTAGAATTCCTGAGATTGTAAAACAAACTACTTTAGAAGAATATAAAAAACATCCCGATTTTGTAATTGACGCTGTTAAAGAGCATCTTCCTGACAAGAAAAGATCATTAGCAGATCATTCAATGTATAACCCTGAGAAAGAATACGATTACTCGAAAGGACCACAATGGGGAATGTCTATCGATTTGACAAGTTGTACTGGATGTAACGCGTGTTCGATTGCATGTCAAAGTGAAAACAATATCCCAGTTGTGGGTAAACAACAAGTAATGAATGGAAGAGAAATGCATTGGATTAGAATAGATAATTATTTTTCAGGTGATCCCGATAATCCAGAAGTATCCACCCAATCTGTTGCCTGTGTACATTGTGAATTAGCTCCATGTGAGCAAGTTTGTCCTGTAGCTGCTACAACACATTCAACGGATGGAGTCAATCAAATGACATATAATCGTTGTCTTGGAACTAGATATTGTGCAAACAATTGTCCTTACAAGGTAAGGAAGTTTAATTTTTATAATTATACAAGAGATCTACCTGAAGTAGTCCAAATGGCAATGAATCCCGATGTTAGTGTTCGTTTTAGAGGAGTAATGGAAAAATGTACCTATTGTTATCAAAGAGTTACTGAAGCTAGAATTACTGCCAATAAAGAAAATAGAGACATTATTGATGGTGAAATTAAAGTTGCATGTCAACAATCATGTCCAGCAGATGCTATTAAATTTGGGGATATCAACGATCCCAATAGTGAGGTTAGTAAAGCTAAAAAACGTAATAGAGATTATGCTTTGCTTGGTCAATTAGGTACCAGTCCTAGAACTACTTATTTAGCAAAAATAAGAAATCAAAATCCAAAATTAGTTTCGTCTCATTCAACTAAGGGACATCATTAGTCATTATGCAAAAGTCAGATTATAAATCAAGAGCACTAGTAAACGCAGAACAGCTTTTACCAGGCAATCAAACTTTTACATCTATTACAAATGACATTGCAGGTGTTCCAGAACAGAAAAAAACTCCTATTCAATGGTGGTTGCTTTTCGGACTTGCTCTATCACTTCTTGGAGTATTTGCTGGAAGTCTTGGTTATCTAATTTGGGAAGGTACCGGAATTTGGGGTATTAATATGCCTGTCGCATGGGGATGGGCTATCATAAATTTTGTTTGGTGGGTAGGTATTGGCCATGCTGGAACCTTGATTTCTGCTATTTTACATTTGTTTAGACAAAATTGGAGAAATGCTATTAATCGTTTTGCAGAAACAATGACCCTTTTTGCAGTTATTTGTGCTTTAGTATTTCCCGGAATTCACATTGGAAGAATATGGGTAGCTTATTGGTTTTTTCCTCTTCCAAATCAAATGGGGATGTGGCCTAACTTTAGAAGTCCGCTGATTTGGGACTTTTTTGCTGTATTTACTTACTTTACTGTTTCTTTGTTATTCTGGTATACCGGACTTATTCCTGATTTAGCCACATTAAGAGATCGTGCTAAGACCTCTTTAAGGAAAAAAGTTTATGGGTTTTTTGCTCTCGGATGGAGAGGTGGAAATAGACAATGGCAGCATTATGAACTAGCATATTTAGTACTTGCCGGAATTTCAACTCCTTTAGTACTATCGGTTCATAGTGTAGTTAGTTCTGACTTTGCAACAAGTGTGATTCCTGGATGGCATACTACTATTTTTCCCCCGTATTTTGTTGCTGGAGCAATCTATTCTGGATTTGGTATGGTGATGACTTTATCAATCATTGCAAGAAAAGTTTATAACCTAGGTCATATCATTACATTAGAACATCTTGATAAGATGGCGCAGATTATGTTATTGACTGGATGTATGGTAGGGTATGCTTATGCAATGGAATTTTTTGTTGCTTGGTATAGTGGTAACCCCTATGAATCTTTTGCATTTGTCAATCGTGCTTTAGGTCCATATTGGTGGGGCTATTGGGCTATGATTTTCTGTAATGTTGTCGTACCTCAATTTTTCTGGTTCACAAAATACAGAAGACATATTCCATTTTTATTCATTACTTCAATCCTTGTCAATATTGGAATGTGGTTTGAGAGATTTGTAATTGTAGTTATTACTCTGCATAGAGATTTTTTACCTGGTGCATGGGCAATGTATAGTCCAACCATCTGGGATGTAGCAATTTATTTAGGAACTTTTGGATTATTTTTCACAGGATTTTTATTGTTTTTAAGATTTCTTCCAATGGTATCTATTGCTGAAGCTAAACTTGTTCTTCCAGAATCAAACCCTCATCATGGAGATGATCATTAATGGCTAATTATGGTGTCATAGCAAAATTTGAATCTCCTTCAGCGTTGTTACATGCTGCTGAAAAAGTAAGAGATAGCGGTTTTACAAATTTTGACTGCCATTCTCCTTTTCCGATTCATGGCATGGATGAAGCAATGGGATTAAAAAGATCAAA
>sequence26
TAGTTTTGTGCGCAATTCTCACACTGAATGAATAATAAATGACAGGTTTGATTCGCGCAGTTCTTATGCGAATCAGCCTTAGTGCCACATTGATGGCAATGCGCTAGAACATGTTCTGTGATTCGTTCACTCATACGGTCATCAAAGACGAAATTTTTACCGATAAATTGTGACTTAAAACCATATTTTTTTTGATCTTGAGCGTATTGAATGATTCCGCCTCCTAATTGATATACCTCTTTGAATCCTTTTTGGATTAAATAGGCACTGGCTTTTTCACAGCGAATCCCACCCGTACAATACAAATGAATTTTCTTGTCTTCTTGACCTGCTAACTGGTTTGCTACCATAGGAAGTAATTCTTTGGAAAAGTGTGCATCAGGAGTAATGGCATTTTGAAAACGCCCCACTTCACTTTCATAATAATTACGCATATCGACAATAACAGAATCCTTCTCTTGGATGGATTGATTGTATTCCACAGGGGTTAGATGTTTTCCTGTGTGATTCATATCGTATTCATGAGACTTAATACCATAAGCTACAATCTCTTTTTTAACTATAACTTTCAGTTTCAGAAAAGAAAGACCATCTTCAACGGCAAACTTCAGTTGGATAGCTTGTAAAATTGGGTCCTGATTTATAGTAGAAAGAAATAATTCAAAAGTATTTTCTGGAACGGATATCTGCGCATTAATCCCTTCATTAGCTACATAAATTCGACCAAAAATATTGAGTTGTTCAAAAGACTGATATAAAGAATCACGATACTCTTGAGGATTTTTAATTGTACAATATTTATAAAAGGATACCGTCTTTCGGAGAAAGGTCTCCTTTTGATATTCCTTTAAAAGTTGTTCTCGTGATTTTTTGTTATACATAATAGAATTATAAAATATTTAAAAAAAATGTTTAAAAAAAATTATATCTTACTGGGAACATCAAAGAGTTTATTTTTCTTGTTTTTATAAAGAGCATATTGAAATCCTTTATGGATTGAGGCATAGCCAATTTCTCCATCTTTGCGTAAGGCAATATAGCCAACTTGGGATTTTGTATTCTTGCCCTCTTTTTTGATAATTCGCTCGACTGCTTCATTACAGGCCTCCATTGGAGAAAGACCTTGGCGCATCAATTCCACCACTAAAAAACTTCCACAAGTTCTCATCACTAATTCACCAACTCCGGTAGCTCCTGCAGCTCCAATTTCATTATCAACAAACATTCCTGCTCCAATGATGGGGCTATCTCCTACTCGACCATGTAATTTGTAGGCTAATCCGCTTGTGGTGCACGCTGCCGCAATATTACCATTTTTATCTTGTGCTAATGACGTAATAGTGTCATGATCATCATTGGGTCCCCAAGTATCTTTGATATTATTATTACGTTTCCATTCTTCCCAACCCACAGCGGATTGTTCAGTTAACAAATTTTCCTCTTCAAACCCCTGTTCCTTAGCAAATTCCAAAGCTCCTTGACCAGCAAGCATGACATGATCTGTTTTTTCCATCACTAGACGTGCAACTGAAATGGGATGTTTAATATTTTGCAAGAACGCTACGGAACCTGCATTACCTTGAGAATCCATAATTGAAGCATCTAACGTTACAATTCCTTTACGATCAGGTCTTCCTCCTAAACCTACAGATTGATTTTGAGCATCAGCCTCAGTAACGCGAACACCGGCTTCCACAGCGTCAAGAGCACTTCCGCCAGCATGTAATATTTCTGCTGAAACCTCATTGGCTGGAATACCGTGATTCCAAGTTGAAATGACAATTGGATTTTGCGTATTTCTTTTCACTTTCTGATCTCCTGATGCGAGTAATGGACTTGCCAAGGTGAGAGCACTAGCCTTTAAAAAATTTCTTCTTTTCATGGATGGTTATAAATCAAATTTTTGACCCTGTTTAGCAATATTAAAACCTTTTTGAGTAAACTCCTTATATTTTTTTGAATCTTCATTCAATAATGGATTAGAGTGATTCAAATGAATGAAATAAACTCCTTTTTTCTCCTTGTGTAATAAGTTCATAGTTTCAACAATGAACGGATGAGGTATTTCTGACATATCACGTCCTGGTAATTCATCAGTGTCGTAAAATGTTCCATCAATCAGAGTGAAGGAATTTTCTTGAGCAATGGTTTGGATATTTTGATTCCATGTCTCCCATTTATCAATGTCTGGAACATAAAAAAGAGATTGTTTTCCTTGAATCTGATAGGCTACGGTTTCAGAAAATTCATCTCGATGCGGAACAATGATTGGCTGGATTGATAAATCATTTGATAAAGATAGCGTTTGACGATCTTTTAAATCTATCAGCTTGATATTTTTCAAGGAAACTAATTGACTCCATGGGCCATTTTTTTGCAGAAATTCTTTCATTTTCGGCATCACAAAGACAGAGATATCCTTTAACCCCATTACTTCTCTGCCCAAATGAATTAAACCTGAGTAATGACCAATGTGCGCATGAGTTAAAAAGATACCGGCCAATTGATAGCTTGGTAGTTCTTGATGAAGGTAATTAAGTTGATCTGGAAAATCAGGAGTGGCATCGATAATCCAAAATGCTCTTTCGTTTGGGCTGACAATCGCTAAACTAGAAACATGCTTACTTTGTTTTGGATTGTCCCATAGATTAATACAGCATTCTTTCAAGCATCCAGATTGAGGATACCCACCATCTTGAGCAATTCCTAGAACAGTGATATAAGGGTTTTCTTGAGCAGTTACAACTCTAAAAGAAAGTATGATTACAAAACTAAAGAAAAAAACCCTAGCCGAATACTTGACCTTCATCGGTTCCATCTTCTAAACTTTTTTTAGGTGCAGTGGATGGATCATACATTGCATCAATTTCTTTCTGATGTTTCTGGGAGACAACTTTACGTTTAATCGACATTTTAGGAGTCAGTTCGCCATTATCTACCGTCCATTCTTGCGGTATTAAGGTAAACTTTCTTACTGATTCATATCGAGAAAAATTGGACATTGTATCTTTGACAATCAGATCAAACATTTCATAAGTGTCTTCATGCACGCACAAAGATTCATAACTTAATGATTGGAGTCCCTTAGAAGTTGCCCAATTGCTTAAATTTTCCCTATTAGGAACAATTAAAGCTGTAATAAAGTTACGGTCATCTCCTATCACACTACATTGCTCAATATATTTGTTGGAGGTTAAGGCAATCTCCATTGGTTGAGGAGCAACATTTTTTCCCGCAGAGGTAACAATTAAACTTTTTTTACGATCAGTGATTCTGAGGAGTCCATCTTCATCAAATTCACCGATATCGCCAGAGTAGAACCAACCATCTTTATCAATCGCTTCATTCGTAGCTTCTTGATCTTTATAATACCCCTGCATGACATTATGACCACGACATAGAATTTCACCATCTCCTGCGATTTTAACTTCAACACCTGGAATAGGTTTACCGACCGTTCCAAATTTAAAGAACTTTGGATTACCTAAAGTCATAACAGGACTGGTTTCTGTCAATCCATATCCTTCAATAATTGAAATACCAATTCCGCAGAAGAATGAACCCACTTCTTTCGAAAGTGCTGATCCTCCAGAAGAACAGGCTCTAACATGTCCACCAAGCACTGCTCTAAACTTATGTAATACAAGTTTATCAGCAATGGCTAGTTGAAGTTTCAATAACAATGGAAGTGGCTGATTTTTTTGTATATATGGGACCGTTCTCGAACCAATTTTGATTGACCATTCGGCAAGCGAACGTTTGATTCCACTAGTGGCTTGAACATTCTCAATAATTTTTGCATGAATTTTTTCGAAAATTCGAGGTACGGCGGTCAAAAAAGTTGGTTTCACTTCCTGAATATTATTGATAACTAATTCCATGCTTTCTGCATAATAAATTTGCATTCCTTGATTAAAAATACAGTAATGACCTCCAACTCTTTCAAAACTATGACTGATAGGTAAAAAAGATAGGAATCGTTCAATCCCGTCTGCAGGCACCATATCAGGTTTCATTTGAAGAGCTAATTCAATCAGCTCCTGGATATTATTCAAATTATTACAAACATTCGCATGAGTCAGCATGACTCCTTTGGGAAGACCTGTAGTGCCACTGGTATAAATTAAGGTTAACAAATCAGTTTCTTCCACTGTGGTTGAATGAGCTCGAATATCATATTGATGATCTTTCAAATCGCAAACTGATTTAAATGTCAAAGCTTTATCGCCAGAGTAGGAGTCATCCATAATAATAATTTGCTGAAGATTGCAAGAATCATCAGATAACAAAGGGTAAATCTTGTCTAATTGGACTTGATCATGCACAATAGCAATTTTACTCTCTGAATGTTTTACAACATATTGAGCTTGCTCAGGGATTAAGGTTGGATAAACGGGCACACTGACTGCTCGAATATGAGAAATGGCATAATCTGAGACAGCCCATTTTGGGGAATTTGATCCAATAATAGCTATTTTATCAGAATCATTTATCTGAAGATTTTTCAATCCATTAGCAAAAGATTCAACCCAATTTTGCAGCTCGGTTAAAGTTACTCCATTCCAACTGCCATCTGATTGTTTGGTAAAAAAAGTTTGGTGGTTTGGTTTTTTTTCCACCATTTGTTGAAACATTTGCGGTATAGTTTTAAATGCCATTACACTCCCCTATTCTTATTCTATTGACAAAGTACATACTTTAACAGAAATTTGTCAACATTATTCGCCGGGGTGGCGGAATTGGTAGACGCGCTGGTCTCAAACACCAGTGAGAGCAATCTCATGTCGGTTCGAGCCCGACCCTCGGTACAAAAAAAGGGGCTGAATACAGCCCCTTTTTAGTTTAATTAACTTTTCTTAAAATTTATTTTTTCTCTTCTTCTGGAGGGAAGACTTCATCCATTAGCTTTTTGATATCTTTTTTCATATCAGAAGCTTCTCTACGTGCGCGACGTTTTTCAGAATCAAAATTATCTTCTAAACCTTCAAGGTCTCTTTGCAGATTTTGAATTCTTTTAGTTAAATCTCTATCTACACGTTTAATTTCATACGCTAAATCATCAATCAAACTGCCCAATGAGTCAGCCTTCGCATAAATAAGTTTGGTATTTGCTAAAATCATTTCCTGACCTTGTTGAATTTTTTTTCCTTGACCAACATTATCTAACTCAACATTTTTAATACGTTGTTTGAATTCTTGATTGACTTGATCAACATGTTCAGATTGTTCCTGGCGTAATTGAGTCATTTCATTCATGGCTGAATTATATTGCATTAAAGAAAAACCAACGGCAACTACAAGAACAAACATTAGAACGCTTAAAATCTTTTCTGTACTACTAAACATTATAATACCTCAATAATTAAATAAACAACCAAAACTAATCACTAAAATGCAATATCAAAACTTTTTTTTTAATTTGGAATTTTTCCAATTCTTGACAGACGAGGTTTATAGGAATCTAAATCCAGCGAAAACCAAGTGATTACCGGTTGTCCAAGAATTTTATCTTCAGGAACAAATCCCCAAAAACGTGAATCTTCGCTATTATCTCGATTATCTCCCATCATCCAATAGTAGTTTTGATTTAATTGATAGGTTCCAAATTCTTGAAGCGGTATTCCATTAATGTATATATACTGAAGATAGTTTTCTTTGAACATCTCTGACCAAGGATTAATTAATTTAGCCCCCTTTGATGGAACATAATTTTTAAAAATGGACACATCTCCAGTCCTACGATAAATATCCATTGGGCTACTATTGGTAAAAGATAATTGTAAATCAAAATCTTCATTAATTAATTCTACTACGTTTCCTTCGTATAACAACAATGGAAAGATATATTCCCAATCCATAGCTAAGCTAATCTCTAAAATATCGCCTTTTTGCGGTATCTTTATCGCAGTCAGATTGTCTTTATTGCCTCTTTTGAGAAAAATATTATTATCGTTGACATTAGAATCCTGAGCTTTAAAATCTAGAAATTGTGCATTCTGAGGAAGAGGAATTAACTGATCATTAATGAATACTTCACGATTGACAATAGAAATAGTTTCTCCTGGTAATCCGATACACCTTTTGACATATTTATAAACTCCATCTCTAGGATATTCAAATACAACCACATCTCCTCTTTCAACCGATTTAAATGCCGGTAAACGATAATTAGGTAAAAAAGTAGGAATGCTCTTTGCAGTAAAAGGAATCCAGACTTTTTGAGGAATTTGAATTCCGTAAACATAACGACTTCCAATTAACATATCCCCTTTTAAAATATTTCTCTCCATACTGGAGGTTGGAACGATATATAATTCCACCACGGTTTCTTTCAAAAACAGAATGGCTAGAATTAAAACCAGCAAAGATTTGATTTCGTTTAAGATTTTATTCATGCTTGTAGAAGAGATTTTAATGGATTGAATGATTTTCGGTGAATAGGAGTATATCGGTGATTATTTATAAGATTTAAATGATGTTTTGTTCCATATCCCATGTTCTTACCAAATCTAAACTCCGGATATATAAAATCAAAGCTTCTCATGATTTCGTCTCTCGTAACTTTAGCGATGATTGATGCTGCCATGATTTCAGGGTAAAGACTATCTCCTCCAATGATACCCTTATTTTCAATGTCAATCTCTAAAGGCATTCCATCGATTCGAAGATAATCTGGACGAACACTCAAGCGCGAAATTGCAATCTGCATTGCTTTTTTAGTGGCATTTAAAATATTTAACTGATCAATTTCTGAAGACCAAATGATTCCAATTGAACAAACGGCAGATTCCAAAATTTGGCTAAAAAGGATCTCTCTTTTCTTTTTGGTCAGTTTTTTTGAATCATCAAGACCTTGAATGGGAGAGTTTAAAATAACAGCTCCGGCTACCACAGGACCTGCTAAGCATCCTCTTCCAACTTCATCTACACCACCTATTACCATTACAAATAAAATAATTAATAAAAATAATTTTTACTTTTAAAAAAAATCTTTAATATGAATTCATGTCTAAACAAAGACTATCACTTTTTATTTTTGCAATTATTGGAACTCTTCTTCTCTGGAAAGGAGTTCATTTTTTTGACTTAGCGTGGTCTTTTCCTGCTAATTTATTGTCTGATTCTGTGATTAATAGTTTTCCTTTTGCGACCATTCCCTTAATGGTTATTTCTCTATTGGGAACAGGAATTTATATGAGCTTTAAACTGGGTTTCCCTCAATTAAGACGTATTTTACATGGAATCAAAGTTACTCGAGGAGATTATGATGACGTTGAAGATGAAGGGGATTTAAATCATTTTCGAGCACTATCAACCGCTTTAGCCGCGACTGTTGGTATTGGTAATATAGCTGGAGTAGCAATTGCCATTTATTATGGTGGACCTGGTGCACTCTTTTGGATGTGGATCACCGCTTTTTTTGGTACAGCATTAAAATATGCTGAATGTACCTTAGCAGTTCAATATCGAGAAATGGATGAAAATGGCAATACTGCTGGTGGACCCATGTATACCATTGAAAACGGTCTTGGACCTCAATGGAGATGGTTAGCTGTTACTTTTGCCTGTTTTGCAGTTATTTGTTCTTTCTTTACCGGAAATGCGATTCAATCCAATACCTTAACTCAACAATTATATAACCAAATGGGAAGTATCTTTAGTATGGATAGTGCCATTATGACTACTTCATCGATCAGTTTTTTGGGAAGCGTTTCAAATATCTCTATTATGCATGTTATAATTGGTTTAGTTTGTGCATTGTTGGTTGGATTAGTGATTATTGGTGGAATAAAAAGAATTGGGAATGTCACTGGTTATTTGGTTCCAATTATGGCAACAATCTATGTGTTTGCTGCCTTATTTATCATTTTAACTAATTTTTCTCACGTGGGAGAATCATTTGGTTATATTTTTGACATGGCGTTTAATCCTCCTTCTTTAAAAGAGCCTGCTATTGGAGTAGCCTCTGGTGCAGTTATTGCCTTTTTAAATACCATGATGATGGGAGTAAAACGCGGATTATTTTCTAGTGAATCTGGTCAGGGTTCAGCAGCAATTGCTCACTCAACTGCCAAAACTAATTATTCTGTTCGTGAAGGTGTAGTCGCCTTATTAGAACCTTACATTGATACAATTATTATCTGTTCTTTAACTGGATTAGTGATTATGGTTACCGATTCCTGGCA
>sequence27
TAATAATTATCTCCGGCAATTAACAGTTTTTTATCTGGATAGTAAATTAGAATTTGATCATCAGTTTCTCCGGGAGCATGTTGCACTTCAAGAGTTATTCCTGCAATCGTAAGGGTATTATTCTCTCCAACAAAAAAATCAGTAGGGTAGACCACTGGAGATTGATCAAAGCTCCATTGCAGTGAAGAGCCTAATCCTTGACCATTTTGGAGTTCAGTGGGAAGATAAAAACCAAATTGCTTCATCCCCCGTTGGGTTAAAATGGGTCGAATCAAGTTGTTTTGATCTGTAAATCCTTTTTCAAAAGTTTGATGGGCATAAATCTTAGTATTTTCATTGATAAAAGAAGGAGAACCTCTCCAATGATCCACATGTGAATGAGTATAAATTATTCCAAGAATGGGTTGATCAGAAATTTCTTGAAATTCTCTAAAAATTTCTTGAGCTGTTTCAGGGCTTTCTGTCGTATCAATCACGATATTTCCTTGATCTCCAACAATTAAGATTGAATTTGCTAATCCATAACCGATAGCGATATACACATTATCAACTACTTGATAGACTTTCTGTTCTAAATAAAACTGATCAGATTCTTGAAAATTTGAGGGGTTTTGAACAGTTTTTAATGGAACAGAAATGGATTGTTTTTGACAGGAAAATAATAGAAAAATAAACAGAAATAGAAAATTTTTGTTACTCATTTTATAAAATATACATCATTATAAATTAGAATTATAAATAAATTCAGCTTGTCTACAGGAACAATTATTTTGTAAAACAGTATTATATACGTGAAATATATTTCATACACTCAAAAAGGATTTACTCCCACAGAAGAAGTTAGTTTTAATTTTTCTAAAAATTATTTAAGTATTGTTCGTGGATATCAAGTTTTCACTTTTTTTCGAACAATGAATATGAAACCAATTTTTCTTGATGATCATTTGGATCGCATTTTTTCTAATGCATCATCCATGCACATGGAAGTCCCGTTTTCAAAAGAGGAGCTCAAACAGAAGGTTTTTGAAACTTTAGAGCACAATAAATCTTCTTTAAATGAATTGAATATCATGATTCTTTTTGCTGGAACCACTGCTCTAAAATATTCTCCTTTAAGCACTGACCAACCCATAGATCTATATATCATTATTTCTCCCGTAAAAGAGTATAGTCAAGAATATCTTAGTGGAGTATCTCTAGGGTTGTTCGAGTATGCGAGAAATATGGGTGAGGTTAAAGCACCCTTTACTTATTTTGGCGGGATTTTAGGTGAGCATCAATTAGTCAAAACAAAAAAATACGATGAAATCTTATTTACTGATCAAGGATTGATCTTAGAAGGATCCACTTTTTCTTTTTTTGCAGTTAAAGGAAGTAAAATTATAACTCCTCCAACGGATGGAAAAATCTTGGAAAGCGTGACAAGAAAAAATGTGATTCAGAATTGTTTAGATGGATTTGAGTTTGAAGAAAGGCCGATTCTAGTGGAAGAAATATCTTCTTTTGATGAAGCGTTTATAACTTCTGCAAATCGTGGAGTTGTTCCCGTATTAAAAATCGAAGGTCTATTAATTTCTTCTTCCATCGGTTCAGTAACATCTTCAATCAAAGAACGATATTGGTCTTTAATATCTTAAAAGTTTTTTGAAACTTTTTTAAGATAAAATCATTAAAATAAAAAACAAGCTAAGGAGAAAAAAATGAGAAATTTTATTGTTGTTGTCTTTCTTTCAATATTTATTACGAACTGTGCAATCCCTATGTCTGATCGAGCTGTAGCTGATTCGAATGATTTTACTTTAGGGAAAGTTCAATCACAGCTTACTAAAGGGATGACTGCAGCTGAAGTCGTGAGTTTATTCGGTTCTCCTAATTTGGTAACCAGTACAAAAGATGGTGGTGAATCATGGACTTATGATAAGATATCTCAAGAATCTGAAGCATCATCGCGTTCAGGTATGGGTGCAGGAAGTAGTGGTAATTTTTTTGGTTTTTTAACTGGTGGTAAAGCGAAAAGTTCTAGAGAGAGCAAAAATCTTACTTTAATGATTAAATTCGATTCGAACGACACCGTCACTGATTTTAAATATCAAAGCGTAAAATATTAAATGTCTAGAAAATATTTCGTTCATTTTGTTTTAGTAGTTCATTTTTTTGTAGTGGGGTGTGCCTTTTCAGTTCCTTCTACTGAAAAAACAACTGCAACGCAACGAGCCATTGAAACCAAAGAGTATAATATTTCAAAAAAAGAGCTTATGAAAGCATCCGTCTCCACTTTTCAAGATCTTGGATATACGATTAGTGTAATCAATGAAGAGTTTGGCATTATTACTGCCAATAAAATAGAACCAGGTGGTCAAATTGTTGAAGAAGAGCCTAGTTTTAATCCGTTAGTGGTTTTGGGAGCTATTTTCTTAATTTCTGCTTTATTTGCTGATGATGACGATCATGATGAGGAAAGAGGTCGTTGGAGAGGAAGATCCTCTAATGGTGATACCGTCATCATTAAAGATGAAACCTTAACTGCTACTTTGAATATTACTGAAGTCTCTGAAAATCCGTTACTATCCAGTTTGAGAATTAATTTTGACAGTAGAGAGAAAAAAGCTTCTGTACAATTTTTTAAAGAGTTTTTTGCCGCAATAGAAAAGTCTTTGTTTTTAGAGCAAAATCTTTAAAATTCTTCCGTGAGAATTTTTGCATCATTCCTCTGTTTTCTAACCTTAATGTTCGGTACAGGAACAGGGGGAGCAAAAGATCAATCCATCACTTTATTACATCGAGGAAGATCAATCCCTATAGTGTCCGATGATAATTCAATGTTAATTACTAGTACATATTCATCTTTGCAATCTAGAGAAATTAAAATATTTGACGATAATAATACTTTAAAACAAACCCTTTATTCACCTAATCCTTCACAAGGAGATGATTTTGGTCAATCGACATTCATCAAAGATAATTTTTTAGTTATTGGTGCTCCTGGTGCTGATAATGGAAAAGGTGCAGTCTATTTATATCAAAAAATGGATGATTCTTGGAATTTTGTAGTAGAAATTTCGAATCCCAATTCCGCGTTGCAGAATCGTTCTCATCAGTTTGGGCATCAAGTAATGATTTCGGATGTGTATTTGATTGTTTCATCTCCATTTGATGGTCATGGAAAAGTATATTTTTTCGATTTGGATTTTAAAAATTCGATTCCTTTGCGTTATACTCTTGAGCCTCCTATACATCAGAGAAACGAAAGTAGGGATCCAGAGCTCTTAGTAGAGTATGGTTTTGGAATTGATATGGATTTAAGAGGGGATGAATTATTGATTGGGTCTGATAATAATGCTGCTTTTTATTTTAGTACTGAATCGTTGAATAAAGATTTTTCATTAATGGATTATGAAATTCCCTATGATCACACCCATGAATATGCTTATGACCATTTATTTGCTAGAACAGTAAGTATAGGAGAGAATTATCTTTTTATCAGTTCATTAGGTTGCGATGAGGGAAGTGGAAAAGTAAGATTTTATAATAAAGATGATCTTAACACTTATATCGAAGTTTATCCTGAAGATAAAATAAACAATCAGTATTTTGGCTATCAAGTGTCTGAAAATAATTCCAAGGTTATTATTTCTTCTTTTAATGGTTCAGATTTTTATTCATTAGAAAAAAATACAGCAGGGGAGATTAATTTTACTTCCATCAATAAGATTTCTTTAAAAGATGACCAAACGTTCGGTAGAAGTTTTATTTTGAAAGAGGATACGTTATTAACTGAAAATTATTATAATGACTCCATAGTTGAATTTTCAACTCAAGATTGGTCTACAAAAAGAGAATTTTCTTTATCATCTACTTCAACTGAATCACGTAGTGCTGCTGAATGTCAAGGTGGAGTTGCTGCTGGATATCCATGTAACAACGTTGATTTATTAGCCTTTATGAATAAAGCATCTATTGGGGGATCCAATCGAACTACCACCAATGATATCTGGGGTTGGACAGATTCATCTTCAGGAAAAGAATATGCGATTGTGGGTATGAGCAATGGAACTTCTTTTGTGGATGTGTCAGATCCTGAAAATCCAGTGTATATCGGAATTCTTCCTACAGCTACAACTAGTTCAACTTGGAGAGATATTAAAACTTACAATGATTATGCGTTTATTGTATCAGAAGCTGGGGGGCATGGACTTCAAATATTAGATTTGACGAAGCTAAGAAATTTTAATGGAAGCCCTATTACTTTCTCTACAGACGCTTACTATACTCAATTTGGCAATGCACATAATATTTTTATCAATGAATCTACAGGGTATGCTTATGCAGTAGGTACCAACACCTGTGGAGGTGGTTTGCATGTAGTGGATATAAGAAATCCCTTAAATCCTTTTCAAGCAGGATGTTTTGCTGATCCAAATACTGGTAGATCTGGAACAGGCTATGTTCATGATACGCAATGTGTCATTTATCAAGGACCTGACCAAGATTATCAAGGAAAAGAAATTTGTTTCGGTTCCAATGAAACTGCTGTGTGGATAGTTGATGTCTCAAATAAGATTACTGACACAGTTGGTGCAAGCACCATTGCACTAGGAAATTATAGTTATGGATATACACATCAAGGTTGGTTGACTGAAGATCAACGTTATTTTATTCAAAATGATGAATTGGATGAATATTATGATTATACCAATAATACTCGTACGCTTATTTGGAATGTTGAGAATTTAGACAATCCTTTTATCCAATCCAGTTATTATGGTCCTACACCTGCAATTGACCATAATAATTATACAGTAGGCAATAAACTCTTTATGTCTCATTATACAAGCGGAGTACGAATATTAGATATCGGAGACATTAACGGTCCATATGAACTGGGATATTTTGATTTATATCCTGCCAGCAACAATTCTTCATTTGATGGAACCTGGAGTAATTATCCCTATTTTGAAAGTGGAACGATTGTTGCAACAGGAATTGATGAAGGTCTGTATATTATTAAATACAACCCATCTATCCAGAATCTTCCACCTACGGACTTTCAATTAAACAGTTTGCAAGTAGTTAAAAATCCCCAGACTGCCTATGATATTACTACAAACTCTTTATTAGTAGATTTCAGTAATTATGCCGATTCTTTGCGAATTTCTTGGACTGAATCTACCGATCCTGAAGGTGAAACAATTGATTATAAGTTGTACGCAGATGGTGATCTATCTTTCCTAAATGAAGTGACTTATGATTTCACAACTAGAAGAATGTATGATATTCAAGAAATTGTTGCTCTGACAGATTCAACAAATCGATATGTTGGTCAGTTAAAAGTGTTTGCTTCTGATGGCATTAATGTTACTATATCTAACGCTATCAATTTTTATTTAGATCCATCTGGAATCATTCCAAAAGTAGCTAATATTAGTCAGAATTACCCCAATCCTTTTGATCAATCGACGACTATTAAATTTGATTTACCAGATGATGGATATGTATCCATAAGAATTTTTAACGCCAAAGGTCAATTAGTACGTCAATTGGTCAACTCTGATATGTCTAAAGGTTATAAATCAGTCGTTTGGGACGGTAAAAATGAATCGGGTCAAGAGGTAAGCTCTGGAATCTATTTCTATCAAATTGATTCTCCAGTCAATGACTATAGTCCTCGATTTGTTAAAGCTAAAAAAATGCTCAAACTATAAATGAAGTCCTTATATCATTGGGTTCTTTCTTGGGCTGAAAGTCCAAACGGAACCCGTTTTATGGCTTTTATTTCTTTTGCCGAATCTTCTTTTTTTCCAATTCCTGCTGATCCGCTGTTGATTGCTTTAGCACTAGGAAAAATTCGAAAGGCACTTTATTTTGCCCTGGTTTGTACAGTGGCTTCAGTTTTAGGTGGAGTATTTGGTTATGCAATTGGATACTTTCTTTGGTGGTCATCTCCCAATGAATTTTCCTCAATTGCAAATTTCTTTTTCAATAATGTTCCGGGATTTTCAATTGAAGTTTTTAGAAATGTTCAGCAGCAGTATGAAAGTTATAATTTTCTAGTCATTTTTTTAGCTGCATTTACTCCAATTCCTTATAAGGTATTTTCTATTAGTGCAGGAGCTTTTTTTGTCAATCTTCCGATTTTTGTCATAGCCTCGACATTAGGAAGAGGGTTACGTTATTTCGCATTGGCATTTTTGATTAAAATTTTTGGTAAACCGATTAAAGAATTACTGGATAAATATTTCAATTTGTTTATCATCTTTTTAGCCATATTGTTTATATTCAGTTACTTTTTAGTAGTATATTTTTTCAATTAAGGAGCACAAATGAAGCATTTTTACTGGACATTGTTATTCTTATTTACTTTTTTATCTGCACAAGCAAAGATTAATCCTACGGTTTCAGATATAACAGAAGAGGATTTTCGTTCTCATATAGGCTATTTAGCCTCTGATTGGTTAAAAGGGAGAAGTTCTGGAACTTATGGAGACTATAAAGCTGTTGAATATATTAAGAATCATTTTGAAACAGCAGGTATGCCACGTGAAAGATATGTCGAGGTGCAAGAACATTTTGTGTTCAAAGATCGACGTACTAAAAAACGTAAAGTTAAAACGTATAATGTTATCGTGACACTCCCAGGTCAAGATCCTCTTTTGAAGGATGAGATTGTGGTTATTGGTGGACATTACGATAGTGTCAAAAATGTCCGTGGTAAGATTCATAATGGAGCTGACGATAATGCTTCTGGTACTTCAATGGTATTAGAATTGTTTGAAAAACACGCTAGTACAATGGATAATAAAAGAACCTTAGTCTTTATGGCTTTTGGGGGAGAAGAGTTAGGGTTATTGGGTTCAAAATATTTTACGGAAAATCCCACCATCGATTTATCAAAAGTGCAAATCATGATCAATTTAGATATGGTTGGAAGATTAGATAGTGAGAAAAATTTACAGTTAGGTGGAACTGCAACCGCTGAAAATTTAGATCAAATGCTGGATCCATTTTTTGATGATATTTCTTTAAATATTACGGAATTAGGAAAAGGAATTTTCAGTCGTTCCGATCATTATAGTTTTTATAAGAAAGATATCCCAGTTCTCTTTTTCTTTACAGGTTTACATACTGACTATCATAGCGCTACCGATGAGGCAGATCGTGTCAATTATTCAGGAATGATGGAGATTGCAGAGTTAGTCAATGAAATTGTAGAATATTTTACCAATAAAAAAGATCGATTAGTCTTTACCAAGGCTCCAATGGAAGATCAACAAATGACAACCCCAACAAAGCTTAAAGGAACTTTAGGTATTATGCCAGATTATGCTGGAGATATTAAAGGTCTTAAAATAGATGCTGTCATTGAGAATAAAGCCGCGCAAAAAGCAGGAATAATTGATAATGATATTGTGACAGCTATCAATAATGTTTCTATTGAGTCTATATATGATTACATGCGAATCATGGCCAACTTAGATAATGAACAATTTTGCAACGGACCTGTTGAAGGATGTGTTTTGCCTGTTGGGATTACTCGCGGTGAAGAGAGCTTAACAATTAATGTTACTTTTTAATGCGTTTTTTCCTGCTTATAAGCGTATTTTTTTTCAGTGCATGTTCAAAAAACGAAGCTTCTTTTATTATTGATGACATCAAACAACTTACTTATGATGGAGACAATGGAGAGGCTTATTTTAATGCCGATGCCTCCAAAGTAATTTTTCAAAGTAAACGTGGTGATAATGAATGCGATAAATTATTTTCTGTTAATTTAGATGGCACTCAATTGTCTGCATTTTCAGAGCAAGATGGAGCCTATACCTGCGCATATTATTCTTTAGATGATACCTATCTTTTCTATGCTTCTACGCTTCATTTAGGAGAAAAATGTCCTGAGATTTACAAGGATCCTAATCCAAGAAAATATATTTGGCCCTTAAGACCATTTGAAATCTTCAGAACCAGCGAAAATGAAACAATCGCTTTAACAGATAGTCCTAATGGCTATA
>sequence28
CCATTTTGATCCAATAAAAGACATTCCTACTGGCAGTCCATCCACATAATCAAAGGGGATCGTCACATGAGGATACCCAGCCATTGCTGCGTAACTTCCATTAACCCAAAATTTATATTCAGCAATTGCTTCATCATCTCCACCATCGTGATTAATAGCCCAGGCTGGACTCCAAGATAGACCAACAAGAGCTTCAATATTATTATCAACTAGCATATTATCAATTTGATCTCTGGAACTTAAAACCTTTTCAAGGGCAAGTAGATACTCTTGTTTTTTGGAATCAGTTTCATTGCTATCATAGAAAATGCTTTGATCAAAGTATTTTAAAACCGTCTCTTTGTTATTTTCATTAAAATCAATTAATTCTTCTAAAGACTTAAAAGATGCATTTGAACTTGACAAATATTCTTCAAGACCCACTTTAAATTCATACATTAAAACTAATAATTCTTCCTCTCCAGGATATTCTCTTTGATCATCAATATCAACAACAGTTGCTCCTGCATTAATTAAGCTTTTTTTAATCTTGGAAAGTAATATTAAACCATCTTCATCATGACTTCCAGTAGGGAGGAGTCCTACTCGTTTACCTTTTAAAGAATCTGAGTTAAGATTGGCGGTAAAATTAAAATCAAAGTCTTTAGGAATGTCTAGCGTTGAAATATCGTTGGGATCAGGTCCAGCAATAACGCTTAAAACGTTTGCTGCAGCATAAACAGAACTAGCCATCGGTCCAGCAGTATCCTGTGTGCTTGAAATTGGAATAATACCTGCACGACTTACCAATCCAACTGTGGGCTTGATTCCAACAATTCCATTGACAGATGAAGGGCAACTGATTGATCCATTGGTTTCTGTTCCAATGGCAATATCAAGTAAACCGGTTGCAACCACTACACCCGAACCAGAGCTTGATCCGCAAGGGGTGCGCATTGAACCGTATGGATTAATGGTTTGACCTCCCATGCTTGACCACCCACTTGTCGAAGAAGATGAACGAAAATTTGCCCATTCAGAGAGATTAGTTTTCCCAATTACAAAGTATCCATTATCGACAAGTTTTTGTACTAAAAAAGCATTAGTTGATGGATAATTATTTTTGAGCGCTTGAGAACCAGCTGTGTTTGCAAAGCCAATCACATCAATATTATCTTTAACTGCAATTGGAATTAGCCCTTTTGCTAAATTATCTGAGATTTGTTCATCTGATAGTTTACTGATATAAATATTATATTTTTGTTCGATGGATTGATTAAAGTTTTCTGTCGAACAGCCAAAGACAATTAAGCCAATTAAAATAAAAATAAATTTTTTCATTTTTCTCCTTAATGTAAAGTATACTTGACAATTAATTATGTAAAGTGTATTTTACATAAAATATTAATTAAAACAAATTTAAGGATAAAAATGGCTAAGATTTCACATAAAGGATTATGGATAGATTTTTCTTCTTTAGAAAAATCTGAAAAAAAACTTTTTATAAAAATGACAGTTTTTGCATTTTTGGGAGGATTTATACTTGGATTTATCAATGATCCAATTATTCAAGAAAAATTTCCTTCAGCAGTTTATTTAAACCTTCTGGCAGTAATTTTATTAGTTTTTACTGGATATTTCTGGTATCAATTCTATCAAACTCAGGACGAATTATTTAAACAGCACCATGACTATGGATTAGCAGGAGGATTTTTAGGTTTTTTTGTTTTCGGAGGCATCTTAGAAATCTTGTCAGATTTTAAGCTATTAGCAGATCATAATTTGGAATTTATTGATTTTGTAGGCTGCTCATTAATTGGAATGATTATCGCCCAATATTACTTTTATAGAAAATATCTTAAATAATTTTTACGTGAAAAATAAAATTAAACAATTTCGAGAAGAGAAGAAGATTAGTCAGCAGGAATTAGCTGAGCTATTGAATGTTAGTCGTCAAACTATCAATTCCATTGAAAATGGAAAGTTTGACCCATCATTAAATCTGACCATCAAAATTGTTCGATTTTTTAAGAAAGATTTAGAAGAAATATTTCAGATGAATGATTTAAAGGAAGATTAGAATGATTGAAAAAATAAAACAACATATGAAACAAGATTTAGCCACTAATAAAACAACTATATTTATGATTTATATAGTAGCTTTTTTAATGTTTAGTAGTTATGGCAGATCTGAAAATGACTTGATTTTAAACATTATAGTCTGGATAATGGGTATTTTAATAGTTGTAACTACCATTTATATTGTTACTGCTTTAATTTTTAAAAAAATGGGGAAACTTGAATGAAACCGAGAATACAAAATGGATATCTGAGAGTAATAATTTTTATGCCTTTATGGCTAATTACAATGGGCTTATCAGCAACTATAGGTAGCATAATTGTAATGCAAAGAATGGGCATTGATATGACAGATGAATCTGCGGTTCAGGCTTTATTTAGCAATGTAAGCTTTGACTCTCCAGTTTTATTATCAATGACTACTTTTCAAGTATTGGGTAGTTTTCTTGCGTTGTGGATTGCAACACGATTTATTGACAGAAAGCCATTGATGTCGATCGGTTTGTCTTGGGAAAATAAAGCTAAGGAAATGTTAATCGGTTTGGGGTTTGCTTTTGCTTTTATTGCGGGACTTTTCTTAGTCTTGATGGCCGTGGGAGCTATTAAATTTACAGGATACGAAGGATTTAAACCTGGAGTTTTTATTGTTAGTATGATGCTCTTTCTAGCCGCCTTTGATGAAGAGATTATTTTTAGAGGATATATTTTAAATAGCATGATGGATTCTTCAAAAAATCGATGGATTGCATTGGGAGGATCATCGTTACTCTTTGCTTTGATGCATGCTGCCAATCCTGGAGTATGGAGTAACTGGGTACCGATGACTGAGTTATTTGCTGCAGGATTTATCTTAGGTATCAGTTATACATTCACCAAAAATTTATGGTTTCCTACATTTTTTCACTTTGGTTGGAATTTTTTTCAAGGTCTTTTAGGATTTGAAATTAGCGGGATTAACGTCGATTCTTGGAAAATGATAAGCCATAAAAATACAGGGGATGTACCCGATATTGTTTCCGGTGGAGTCTTTGGTATTGAAGGTTCAGTAATTACTTTAGCTTGTACCATAATTTGTACTTATTTAATATTTAAGTACTATAATGAACAAAGATAAAATATTATTATTGATACTTTCTGTAGCATGCTTTGCTATTGCTTATAATTTGTATCCTTCAGCTACAATTCCAGAGGGAATGCATAAAGATCCTTCAACGGGTGAAGCAATGCTTCTTAATAAAATCAAGATTTCTGAACTTCAATCATCTCCATTTGATAGTTGGTTCAATACAGAGTTTGAAGAATATCAATTAGATTCAGAATTACTGTTAGCAATTGAGGATTTTGATAATGTGAAAGTTGAGGTCTTTTTAGGTACCTGGTGTAAAGACAGTAGAAGAGAAGTACCTAGAGCCAAAAAAATATTTGATAATTTAGGTCTTAACGAAAATCAAATAACTTGGATTTGTGTTGATCGAGATAAAATTAGTCCTGATGGTCAAGAAAAAAACAAGCAAATTAACTACGTTCCAACTTTTATTTTTTCTAAAAATAACGTAGAAATTGGAAGGATTGTTGAATCGCCATCATCTCAAACTGCTAGTTTAGAAAGCGATATTTTCGAAATATCTTTAGGAATTCCACCAGCTCCAAACTATAGTAATCAATAGTTTGTAAATAAATATATGACTTACACTTTGAACATAGAAATAATTGGATGGATTGGTTCAACCTTCGTTTTATTTTCCTTTATGTTTGATGGATGGAAGATGAGGCTGCTAAATGGAATTGGTGCAGCAATGTGGCTTGGTTATGGCTTGATTCAAGGGAGTTTAAGTTTAGCTTTTTTGAATGGAATTATAATTTGTATTCACATTTTTAAAGTAATTCAAAATTCAAATAAGCTTTAAAGCTTGCAAAGCACTTAATTCTTTATCTTTTATCTCAAACATGATATCTACATCAAATTGATTAATGATTTCGCTTAGATAGCCTTCAAAATGTGTTAAATCAATTGTATCACAGTGCTTTCCAGCTACAGAATTTTCTTGTTGGGATGAGTAGTCTACCATGGGAACTCCATCTTTACTAGTCCAAGTTGGCTGAACTAATTGCATCGCTTCAGTTAAGGTTTCACCATTGTTTTTAACCTCATGATGTAAATTATCAAATATAATTGGAATATTCGTTTCAGAATGAATATCTAAACAATCTTGAAGACTGAAAGATTTTTCATCATTTTCAATTACTAGATGATTTTTAATCTTTTGATTTAAAGAGTGATATCGATCAATGAATCTTGACTTTGCAGCTTCCATATCTCCATAAACACCTCCAACATGGATTTGAATTTTAGCAGTTGTATCTAAGTTCATTAAATCAAGCATTTTGATATGATATTCAAGTTCACGAACTGTGGCTTCAAAAATATCTATTTTAGGAGAATTAATCAGAACAAATTGTCCTGGATGGAACGAAATTCTAAAATTGTTCTCTTTAATGATATTCCCTATTTTTTCAAAATGATCTTTGAATTTCTTGCTCCAATCAATGTTCATGATTGAATGAGAAGCAAAAGGGATCAAATCGGAAGAAACTCTCAAGAATCCAAACCCATTTTCCTTATTGTATAATAGAATTTTTTCTAAGTTGTTTAAATTAGTTGTAATGGAATCAACTAATCTTTCTTCCGAGAAGGATTGGAGCTTAAATGTTGAAATTTTACACCCAATGGTGTAGTTCATGCAAGGATAACCAAGTTTCATTATGAATTGATTTTTTTAAATTCATCAGGAGTAAGAGTTTTCATGGTAAGCGCATGAATTTCTCCGTGCATATATTCATCTAAAATTTGGTAAATCAATTGATGTCTTTGAATGAGAGCCATTCCTTCAAAATCAGGACTTACTAAAGTCATGCTTAAATGAAAATTTCCGTCAAACATAGCATGGTTTTCATGATTAGCTGTGTAATCATAAACATTAATTTCATCGACTTGAATTTTTTCAGAGATTTTTTGAGTAATAATATTCTGTAATTCTTGAAGCTTCATTATTAATTTAAATTATGACCTCTAAAGTTAATCTGAAAATAATTTTACTAACATTTTTTTTAAGTAGTTGTGCATATTTTAATACGCTGTACAATGCTGAGCAGCATTTTGAGTCCGCAGAAAGAATTCGTATTGAGAATATTGGAAAAACACTGCCACCCGATGCTGTAGTTGAGTATGGAATTGTTTTGGAAAAATCCTCTAAGGTAATCAATGACTTTCCTGAGAGTAGCTTTGTTGATGACGCAAGACTTTTGAAAGGTAAATCACATTATTTTCGAAGAGAATACGACAGTGCAAAGAATATTTTTGAAAATCTAAGATCAGATGAGTTATTTGTTCAAGAATCAATTTATTGGCTTGCACTTTGTAAATGGAAGGACTTTAAGGTTCAGCCGGCTATTAATGATTTAAATACATTGTTGAATCAAAAGATTGACAAAGACTTGAAGTCTAGAATTTATCTTTCGCTTGGAGAAATTTATTTAGAGCTTGATGATTCTGCTCGTTCTCTAGAGAATCTTTCTTTGGGTGCAGAATTGGCAGAAACTAGAGAAATAAGAGAATTGATTTATTACCAGATTGCAGAAATAGCTTTTAATAATGATAATTTTCCAGAAGCTATTAATGCCTATAATAAAGTTATTTTAAATACAGTTTCTCCATCCACAACCAGAGAAATTAATCTTAAAATCATAAAAAGCAATAGAGAGCAGGGAAATCTTAAAGAAGCAAAATCAAAAATTGAAGATTTGCTGGTGGATGAAACTTATAAAGATTTGACAAGCGATTTAGAATTTGAGTTAATGAAAATTGAATTAGAATTAGGTAATCGAGATTATGCTCTTGAAAACTTTGATCGAATAGGACAATCAAATCCCAATACAGCTATTTCAATAGAATCATTTTACATTCTTTCTCAAGAAAGCTTAAAAGAATCTGAAATAGATTTTGATAAAATCATATTTTTTAGCAATCAAGCTTTGAAACAGAATATTAATCATCCTCTAAAGCCATTGTTAAGGAATAGGATTGAAAGTCTTGAGCAAATCAATAAGATTATTAAATCTAACAAAGGCAAAATGACTGACAATGAACTTTTTGCGATTGGAGAATTATTAGCATTTAATTTAAACTCTAAAGAACAATCGGTGACTTATTTTAAAAAAATTCTCAGTGATTATACTGAGTCAGATTTTTTACCCCAGACTAATTATTTTTTATACACTTATTTCAGAGATAATAGTTCTGCTGAAGCGGAAATTTATAAACAATTTCTTTTAAATAGATATCCTAATTCAGACTATGCTTATGCTATTATTTTTAATGAAGAAATTCCTCTTGAGCATCAATCATCTAAACTTCTTTTGCAGGCTGAAAAAGAGCTATTAAACAACAATGTTGAAAGTTCAATAAAGATTTATAATCAAATTATTGAGATCGATTCTGCGTCAAGTTTTTCCGCTATCGCAGCACTATTTTTAGGAGATTATTATGATGATATTTCAGATTTTGAATCTGCAAAGGTTTACTACAACTGGTTAATAGAAAATCACAAAGGTAGTAAACAAGCTGATTTTGCTTCAAACAGACTAAAGATAATCAATGTTGAATAAGTGTAGACTTATTTTTTTGCAAGCGTTATACTTAATTAATAGAAAATTTATCATTTCTTTTTTAAAAATTTTCAGTCCAGACCTGGAAAAATCAATTGTTGCTGGAGATTTGATTCTCTTTTGGATAATGAAAACTCCTTTCAAATATTTTTTTAAATTTCACATACCAAAAAATATCTCAACTAAAGTCTTTAATCTAAATTTTCCATCTCCAGTAATTGCTGCATCTTTTAAAGACCATTTATCCTCTTTACATTTTTGGCAATTAATTGGCGTAGGAGCTGTTACTTACAAAACTCTTTTAAAGGAACCTTCAAAAGGAAATCTTAGGCCGAGAGTAGTAGAAGTTAAAATCGATGGAAAAAAACATTTAATTAATTCTTTGGGGTTGCCAAACAAGGGCATTGATCATTTTATAAATACTAAGGTCATTGAGAACATTATTTATCAAAACAGACCAATCGGAATTAGTATTGGGGGAAATTCAGATGAAGAATATTTACAGAGCTTGAAGACAATAGAGCAACTCATTGAAAATAAAAATTATAGAAATATTTTTTATGAAATAAATGTCAGTTGTCCAAATACCGTACATGGTAAAACATTGAATGATAATTGTGAACGGTTGATAAACTTACTTTCTTCTTTTCAATTGATTACATCCAGGCCAATCTTTGTTAAAGTAGCACCGGATACATCTAACGATTTTTTTCTTAAACTTGGGAATTTTTTAAATATGCAAAATAATTTAGGGATTAATATTGGAAATACTAAATCCCAGTCTGTGGAAAATCTTAATCTATCTAGTTC
>sequence29
ACCTTAACAAAACCTACATTTAATGGAAATAATAGCTCTGCTTGGAAGAAAGACGTTCTATTAGTTAATGGTTTTGATGAAAGAATGAAGTATGGAGGATTAGATTGTGAAATGGGCTATCGATTAAATAATCTTGGAATCAAGGGAAAGCAAATCAGACATCAATGTTCTCCATTACATCTTTATCATGAAAGGCCTTACAAGAACGATATAGATCGTAAGGCAAATCGAGAAATTCGATCTGAAACTATAGCTTCAAAAAAAATATTTACGGAGCATGGCATTGAAAAAAGACAATAAAGCAATGGTCATCTATTTTGATGTCAAAGAATTGTATTATCTTCCACAGTATCTTCCCGTTTTTCATCAATTAATTGATAGAGGGTATCAAAAAATTGTATTTGTTTTTCATCATGGAAAATTTGACCAACAAGTTCAAGAAATTATCGAAGCCAATGATTTGATTTCCAAATGGGTTCAAAATGATACTGAAGCGAGAGATTTATATATTCATTATAAGCCAAATTGGATATTTTTTGGAAACTCTTTCCCTTATCTTGAAGAGATTCACAATCATTCTAAAACCGCACAAATGGGGCACGGCGTAGGGCCAAAATCTAGCTACTATACAAAATCCTCCACTCCAAATACTGTCCGATTTGTTGAAGGAGAATTTAGAAAAATTAAGCTAGAATCAATGTTTCCCAATAATCAATTTGTCAACACTGGATTCTCTAAACTGGATCCTATTTTAAACGGAACTGCTGAAAAGATAGATATTCAAAAAATTGGATTATCTAACAAAAAAAAGACAATCCTTTATGCTCCAACATTTTATCCAAGCAGCATAGAAAGATTTCCAAAAAATTTTCCCAAAATTCTTAATGAATTTAATATTATTATCAAACCACATTTTTTTACACACAGCAAACAAAAATATAAAAATCAGCAAAAAATATTGAAGTTTTGGGGTCAGCATGAAAATGTTTTTGTCACATCCCCAAAAGCATTTTCCTTAGTTCCATTCTTATCAACTGCTGACATCATGATCAGTGATGCATCTTCAGCGGTACTAGAGTTTGCAGCAATTGGAAAACCGGTAATAGTTTGTAAATTTCTTAAACTTAGATGGAATTATCGTGGAATTTTTTCGTTCCGCTTTAAACAAAGAATGAGTTCAGATTTTAATTTTTATTCTAATTTTGCTTTCATTGCTGATGATTTCTCCCAGTTAACTACTCATTTAAATGCACTGTCAACGTTTCAATTTAATCCTGAACAAAAAAAATTCATCACAAAAATGATTGGCTCTTTAGATGGAAATGCCAGTAAAAGAATAGTTGATTATTTAGAGGAAAATTAATAGATATTTGAATATGAAAAAAATTGGTTATACAACAGGCGTCTTTGATTTATTCCACATTGGACACCTAAACATTCTTAAACGAGCGAGATTGGAGTGTGACTATCTTATCGTAGGCATCACAACTGATGAATTGGCTTTCTCTGTAAAGAAAAAAAATCCTGTAATCCCTTTTCAAGAAAGAATGGAAATCATTGAGGCTATTAAATTTGTTGATGAAGTGGTTCCTCAAACCACTTATGATAAATTTGAGGCTTGGAATAATTTAAAATTTGATCGCATGTTTGTTGGAGATGATTGGAAAGGAACAGATGAATGGATTAAAATTGAAAAAATTTTCAGCAAAAAAAATGTGGAGATTATTTATTTTCCCTACACCACTCATACATCCAGCTCTAAATTAAGAGAAGTTTTGGCTAAAATTTAGTCCATATGATTATTAACAGTACATTTCCATTTGAAGAATTGAGTCATGAAAAATATGAACTTGAAAAAAGAAGGCAACAAGTTGAACTTTTAAAGCTTCAAGAATGGGTCATTAAAAGAAAAAAGCGTGTAGCAATTGTTTTTGAAGGTCGAGATGCCGCTGGGAAAGGGTCAACAATTAAAAGGTTTATTGAACATCTGATTCCAAAAAATGCCCATGTAATTGAATTAGGAATACCATCCAAAAAGCAGAGCAAATTTTGGTTCAATACCTATGAAAAATTATTGCCTGAACCCGGACAGATACATTTCTTTGATCGATCTTGGTATTCTAGAGCACTAATTCATCCAACAATGGGGTACTGTTCAGAAAACCAATATCACTATTTTATGAAAAAGATTGTTTCTTGGGAAGAAAAGCTAATCAACGATGGACTAATTCTTATAAAATTTTATTTATCTGTTTCAAAAGAAAACCAAAGTTTAAGATTTAAAATTAGACAAAATGATAAGTTAAAATATTGGAAATTTTCCAATAATGATTTGATTGCTTTTAGTAAATGGGATGTTTTTACTAATTATAAAGAACAAATGTTTAATCATACTTCAACAGAAAAATCTCCCTGGGTAGTGATTAATGCTAATAATAAAATGATTGCCAGACTGAATGCTTTACGATATGTACTGACCCATATCGATTATCAAGGGAAAAGGGAGCTGAAACCAAAAAAATGGTCCAGAGTATCCCATGAAAAAGAGATTGAATTAAATGGAGTAATGTTCAAAAATTTAACAAAGGAACAATATGATGTCTTACATAAAATTAAAGCCAACTCCTAGATTAGATACAGCTGGAGGAATCGTTCTTTTAAATCAAAAGATTTTATTTATAAAAAAAAGAGGGATCTGGGATCTTCCCAAGGGTAAAATTGAATTTGATGACTCTATAGATGTAACTGCTTTACGTGAAATACATGAAGAGACTGGCTTAGAATTAGAAAAATTAGACATTATTGGAAAGCTTCCTAGTACAAAATATTATATCTGGGATGGAAAAGATTATATTTTGAAAAAGAATTTTTGGCGTATTATCGTTTATAGAGGTTTGCCGGACGTTAAATTGATTCCCGATCAATTAGAAGGAATTACTAAATGTCGATGGAAATCGATTACCAAAATAAGTAAGGTGCAAAAAAAAACGCATTCACGAATCAGCTATCTAATTGATTATTTTCTTAATGATCCCAATTTTGAAATATATTTAAAAGAATCTCAGTCAAGAATCTGAAGTAAATCCGTAAAACCACCAACTGGGACACCATTAATCACAATTTGTGGTACAGAGGTCCCTTTCGTTTTAGAAGACATTTCTTGTCTGGAAATTGAATTTTCTTCAATATCAATCTCTTCAAAACTACAACCTTGATCTTTTAGAAACTGCTTGGCCATTTTGCATGGACCACACCAACTGGTTGTATAAATGATTATGTGATCAGTTTTAGGATTTAATTTCATCAGAGAAATTTATTAATCTTTTTTGTTTTTAAGTAAAGTAATAATAATTAATTTTGCTCATGGAATTTTCAATCTATTATTGGGGTATTTTTGGAGGAGTTATTCTTTTTGTTTTCATAATTTCTCTTCTTTTCAATCGATAATTTTTCAAATTTTTCTTATGGATTTAATCAATCAATTTGGACAAATGTTACAATCTAATCAAAATCTATTGTTAGGTTTAACTCTTTGGGAAGCTTTTTGGACGTTAATTGCGCTTTGGTTTTCAGCAAGAAATAATCATAAGGTATGGTTTCTTGTCTGCGGAATTATGAATTTTTTTGGTTTGATTGAATTATTTTATTTATTTTCAAAAACAAATTTTTTTAAAAGTTTTAGGTTTGATGAGTAAACATTTTCCAACTATTATTGCCACTATCATGCTTATCGCGATGCTCGCATTGATGAGTAATTGTCAAGTTAAAACTGATGTCCCGGTGGATTATAATTCTCCAATGCAAAGCAATGAACATCTAGATGAAAATGGCAATCCAATGAAAAGGAGAATCGTTAATTACGAATTTCAGCGTGAAAAGCAAAATCCTTAAGGAATCCCTTTTTTGGGGTATTTCCCTTGCTTGTCTATATTTTTCATTTAAACAAATTAATTTCAATGATGTTTTGGAATTAATCACCGATTCAAATTATACATACGTGCTCTTCGCAATTCTGTTTACATTTGGGCAATTTCTCGTTAGAGCCTATCGCTGGTCTGTTATGTTTCCAAACAGCAAGCTATCCTTTAAATCTTTTTATTCAGCTACACACATCGGTTATTTCTTCAACAATGTATTGCCTTTTCGAGCTGGAGAGTTGATAAAAGCGAAACTAGTGATTGATGGTAGAAATAATAGTGCTCAATTATCCTATTCTTTGGGCACTGTGCTTTCTGAAAAAATATTAGATACTCTTATTTTAAGTGTTTCAATTTTAGCCTTTGTGTTGATTGGTTTTATGGGATTTTTAAATACAAAATTAATAGTACTAAATATTTTTCTCGTTTTATTAGCTCTAATTTTAATTTTTAGCCAACTGACCTTTTTGGATAAAGTAAAAAATCGCTTTCCAAAGTTTGATAATTTTATGGAAGGAATAAGTATTATTTCTCACTATAAATTTAAATTACTATTTCTATCAGTTATTTTTTGGTTAAACGTTCCATTATATACTTATTATACCATGCTGTCATTAGGGGTGGAAATGAATTTTGAAGAAACAATGGTTTTAACAATTTTATCAACCATTGGTATTGCAATTCCTCTGGCTCCTGGAGCAATTGGAACTTTTCATCTTGCTGTTATTTATTGCTTGAATACTATCTATTCATATGATTTATCGATAGCTCAAAGTGCGGCAATTTTGTTACATGGAATCAATTTTCTTTATATAGTACTTGTTGGATATTGGTATTTTTATCAAGAGAAAAAGGAAATTAGATATGCGCATTAATGGGCTAATCTGGGTTGCTTCCTCTTATTTTTTAGCTTTATCAGTGGGATATTTTTCAACAACTTTTTTCTTAGATAGATCCATTCTTTTTCAAGTATTCATCGCAGATATTGCTGCAACATTTATTATTTATTTTTTTAGTGTTTGGAAAAATAATTCCTCTTTCTACGATCCGTATTGGTCAATTATTCCTCCATTTTTAGCATTTTTTTGGATTCAAAAAAACAATATTAGTTTAAGCATTGAGTCAATTTTACTTATTTCTGCTATCCTTTTTTGGTCCATTCGTTTGACAGCAAATTGGATAAAAACATGGGAAGGTCTTCATCATGAAGATTGGCGCTATATTGATATGAGAAATAAGATGGGGAGATGGTTTCAGATTTTAGGTAATCTAGGTGGAATTCATTTTTTCCCAACGCTAATAGTTTTCTTTTGCTGTATGCCTTTTATGTATATTGGATCATCAAAGCCTAATATGCTAGTTCTATTTTTAGGAATTTTTATCTCAATTGTTGGAGTTATTCTTGAAATTATATCAGACTTCCAACTGCATCAGTTTCGACAAAAAAATTCTGGGAAAAAAGGAATTATTGAGTCAGGCTTATGGAAATACTCAAGGCATCCTAATTATTATGGGGAAATTCTTTTTTGGTGGGGAATGTATGTTTTTGGATTTTCCTACCAAGGATTCAACTATTTGATATTCGCTCCAATCAGCATGACATTAATGTTCATATTTGCCAGTATTCCTTGGATTGAAAATAAAATACTACGTACAAGACCAGAGTATAAAGACTATCAAAAAAGAGTGCATATTTTATTTCCTGAAATTACTATATTTAAACGTTTAATTGGTAGGTAAATGGATAACAACACGACAACAGTATTAAAAATTTTTGGGCTCATTGCACTAGTATATTTTGTCTTTTTTCTCTTGGTTATGGTTCCTAATAAGACCTGGTATCTTTTCGGTTAACTATGAATTATCAGACTTTTTCCTTATGGCTCTTATTAGTAGTCATTTGGAATTATGGAATACCAAATGCTAGTCCTTTTCAGGATGTTGTATTTGCAATTCTATTATTTTTTCTCTCTGATAAATTATCAAAAAAGAATCACTAAGTTAATTCTGCAAGACCTTGCTGTACAATCTCTTGAAGTTCAATAGTTTTCGAAGAAATTTCTTTATTTATTTCTTGTTCTGACATCTTTGAAGAATCCTTGGGATAGATTGGAGGAAGGATTTTGATCGTTATTTTTCCCGGTTTCATAAACCACTCTCCTTTTGGCCAAACTTTTTCTGTTCCAACAATAGCAGCGGGCAAAATTGGAACATTTAGCCCCAATGAAAATCTCATTGCTCCTTTTCTAAAACGTTGAAGTTGCCCTGCCTCTCCCCTAGAACCCTCAGGAAACATAATAATATTATTATTTAAACTCATGAAAGCTTTTGTGAGTAAAAAGGTATCCTCAATATCAATAGAATCTTTTCCTGAAGTATTGCGACTGATTGGAATAAGATTGATAAAATTTTTGAAAAATATTCTATTAAACGAGTTATCAAACCAATAGTCCTTGGCTGCTAAAAATCCAAATTTTTCATATCCCATTTTTGTAGAAAATGCTAAAACTGCAATATCCATATGGCTATTATGATTACTAACAAAAATAAAAGGAGTATCCTTTGGGATATTTTCTTTGCCAATAATTTTCACTCTCGCATAAAACAATAGCATGGAATTTGCATATAAATCAAAAAGAAACGAGAAAATCTGAAATAATACCGTTCGGGGTTTTGCTAAATGATTATAGCGAGGATCGTCTAAAATTGTAAATTTCATTTAAGCTTTGATTTTTTTTGCTAATGCGAAATATAAGGAAGGAAAAAAATTACGAAGCATAATCCCTAAATTGGCTATATCTGACCATTTGGAAATGATTGCCTCTCTTTTCTTGGATTTAATGGCTTTGATAATTTTTTTGGCAGCACTTTGAACGGATAATCCATTAGAATGTCCTCGATCATTTTTCCCGTAGGGCTTTCCACTTTCAGTGAGCGCTGAAATTCCAATACCCGTATCAACTCTCCCTGGAGCTACAAGAGTTATATCAATATTTTGATTTGCTACTTCAATTCGAAGCGAATCGAAAAAACCATGTAGTGCATACTTCGCGGAAGAATAGGCAGTGCGATTTCTTGAAGGAATCTTTCCTGCAACACTGGTATTAGTTACAATATGACCGGTTCCATTTTTGATCATATGCTCTAAAACATATTTGGTCATATATACTACTGAAAAATAATCTAATTGCATGATGTCGTTAATTACTTTTAAAGAAGAACCTTGGAATTGGCCAAATTGGCTGATACCCGCATTATTAAATAAGATATCTATTTGCTTGTGTTCAGTAATAATCTGACTAATTAATCCTTCGATTCCATCAAGATTAGTAAGATCAAACGAATAAAAAGAAACGTTTTCTGCAGGATAATTTTTAAAAGAATCTTTCATCTTATCAATACTGCGTGCAATAAGAATGACTTTGCTACCCAAAGATAAAAATTCTTTGGCCACTGCTTCTCCAATTCCAGAAGAAGCTCCAGTAATTACAATATTTTTACCGTAAAAACTCATTTTGGTCAAAATAGTTGAATAATTTGATTTTACCAAT
>sequence30
CCTCATAGATATGAGTATATATAGGACCCGCTGATAGGGAGAAGCTTTGATTGCTCATTAAGTTATAAGACATCCAAAACTCAACTCCTTTACCTTTTAATTCAATACTAACAGATCCATCGCCTAACTCTTCATCAGTGTAATTATACTTACCACCGCGATGAGTCATTCCAGCTCCCACTGAGATAGTATCATTCATATCATAAGAAATACCTAAGTTTAAACCTGAAGATCTTCCATCAGCATCAGTAAAACTACCTGAGGTATATCCAGCATAGACACCCCATGGATTATCTTGCGCAAAAGTAAAAGCACTCAAAAATGCAAATACTACTAAGATTTTTTTCATTCGAATCTCCATTCTATTATTTTTTGCAAATATGAATTAATTTAAAATAAAATGCCAGAGATTTCTGAAGTCAAATTAACCGCTGAATTTATCAATCATGCCAATCAAAATAGGTCGATTAAAGATGTCCAGTTTTTAAAAACCAATAAACTAAAACTGGTTGAAGAATTGAATATCATTGGATCTACAATTTCTGCAGTGAGCAGAGGAAAAGAACTCAAACTTTTCTTCAATCAAGAGCCGGTAGTGATTTCATTAGGGATGACAGGTTGTTTTAAGAATTTCAAAAAAAGAGGATATAAGAATAAACATTGGAAACACGGGCATATTAGATTTTATATGAGTGATGATACTTGGTTTGTTTGGAGTGATGTGCGTCGGTTTGGTAAAAGTGTTTCCACTAATTGGAATCCTTTAAGAGGACCAGATATTTTTAATGAGGAACAGTTGTTTAAATCCAATATTCTCGAAAATACGAATCATCCTGACTTTACCAAACCTGCTCATATCGCCTTAATGAATCAGAGATGGTTTAACGGGATTGGCAATTATTTGAGAGCAGAGATTCTTGGAAAATGGAATAAGAATCCTTTTCAACCTATGAAACAATTATTAAATGAACCTTTTTTAGATCATTTAATTGAGCAAGTGCATGATAGCTATCGTTTAGGGGGAGGAGAGTTGTATTCTTGGATGAATGAGAATAAATCATCCAATAATTATGACTTCCATCAATGGATGAAATTTTATGGAAAAACCGTAAAAACTATTGATCCTCAAGGCAGGACATTCTGGTATCAAAAAAAATGGGGTAAATATCTGTTAAAATGATTATAATTTTTAAGAAAAAGGAGAAAAAATGGGAATAGTGAATAAGAAAAAGTTTGATCATCATGATGAATTGAGGCAACCTGATAAAGCTAGGATTGAACTTTTGAAATTTCCGGCAGGAACCGTAGGTAGATTTACTCTGCAACCTGGCTGGAAATGGACTGAAAGTGTAGGACCAATAGCAGGTACAGCAACATGTCAAGCTCCTCATTTAGGAATAGTTGTTGAAGGGAGTTTAACCATTTTTGGTGATGACGGTTCTGAAGAATCCTTTGGCCCTGGAGACGCTTATCAAATTCTTCCAGGTCATACTGCTGAAGTCAACGGTGATCATCCAGTCATTTGTTATGAATTTGATTCTTCTACTGCTGAATCTTATGCAAAGTGACCTCTATGAAAAGACTTTACCGTAATACACAAGAAAAAAAAATTGCTGGAATTTGTTCTGGATTAGGGGACTATTTCGACATCGATCCAGTCATTATTCGATTGATTTTTTTATTTGCTCTATTATGCGGAGGAACAGGAATTCTTATCTACATAATTGCCTGGTTTATTGTTCCAAAACAGCTGGAGCTTCATTCTCGTAATCTTTGATTGATGAAATTTTTAACAACTTTTCTATTCTTAGGGATACTGTCTGCTCAATCTGAGCATCACTCTCAATCGATTGAAACGGTTGTCTATCAATTCATGCAAGCTATCAATACCAATGATGCAGATCTTGCTCAATCTTTAGTCCTAGAAGATGCAATGATTACACGAGTATTGATTAGAGAAGGTATTTCCAATTCTAAAAATATCTCAATGAATCAATTTATCGAGGATATACGTACAAGAACCATTGAAGTGGAAGAACGAATTTGGAATTTAAAAATAGAATCCAATGACAATATTGCAACAGCCTGGATGGACTATGACTTTCATATTGAAGGGAACTACAGTCATCAAGGTTCAAATGTTTTGTTCTTAACCAAAACTTCTGATGGTTGGAAAATCAGCCAAGTATTATTTGATATGCAGATCTAACTAGAGATTATCCGTTAAATGTCTAGCTTTGATTTTTTGATATTTTTTGCGAAGTGAGCGCATATTTTCACAATATCGTTCAAAGAGGTCTATTTTAATAGATTTTAAGGTTCTTCTTCTTGAGCGCGCTCTTTCAGAGCGGACTATTCGATTAGACTTATTCATAATTAGCTCCTTAATTGATAAAGTGATTTTTTTAGATTATACAATAATTTAAGGTGATTGTTCCAAAAAAAGGTAAAAAAAAGGCCTTCAAAAGAAGGCCTTTTTTTATGAAATAAGGTATTTAGCTTATTTGGTATCCATTCTAGCAGCTGCCCAAACGACGACACCTGGTAAAATTTTATTGATAAAGTCAGCTAAATTGTAAACTTGATTGACAGTGTCCATGTTAACTCCACCACCAAAATAACCAAGAGCATATCCTAAAGGATAGATGATCCATCCAAAAGTGATAATTTTTCTTAAAGTAGTATAAGCATATTGACCTGCAGCATTACTTGAACCAGCGTTAGCTTCGTTTGCTTCACCTGACCAGATTTCTCTCAATGCTAATAGCCAGAATACACAGCTAGCAATGAATCCTGTCATATGAGAAAAGCCCATAGCTTCTGTTTCACCTAAGTAACCAAAAACAAGCATTAATGTAGTAAATGCTAATAATTTTTTGAAAACAGAAGATGATACATTAGTTACCGCAAGCAGAACAATGTAAAGTTCTATCATCAATAATGGCACAGTAATTAACCAATCGATATAACGAATAGCAACGGTTTCTACGCCATCAGTTCCTCTCATATAAAAGTAGTGAACTGCAGCAATGAATGTCACTAGTCCAGATACAGTTAAAGAGGTTTTCCATTTAGGATTTACATTGTCTCTCTCAATCCAAAAGAAAAGAGCTGAAGCAAGTAAAGCCATATTTACAACGAAGAATGTAAATCCAGTTAAGGTACTAGGATCCATTCCAAATAAGAAATTTATAAACATGTTTATTTCCTCGTTTAAGTTAATTTCAGTCAATATAGTTAATTTTTTTTAAAAAATAGAAAAAAAATTTATTAGATATAAATGCTCATTGAGTGTAAACTTCTTTTCTATGAAACGAATGATTATATTTCTAGTTGCAGCATGGATTATTATTTTTATCGTCTTATTTATCTCAATGATGTTACCGATTGGGTAAGTTGAAGAAATTATTTCAAGTATTATCCTATCTATTTCCCTCTTTGTTTATTTCCATTGCCTTGAAAAAAATCAGTACTCCAACACAACGACCGTTATCAGATAAAGAATTATCTTTTCTTCATAGTGCTGAACAAACTTCCATTCCCTTCATGAAGGGTTCTATTCAAGTGTATCAATGGGGGAAAGGTCGACAAATCATTGGAATGATTCATGGTTGGGAGGGAAGAACATCCGATTTTTCGACCATCATTGAAACACTGCAAGATGATTTTACTGTCATCGCTTTCGACGCTCCCTCACACGGATTAAGTTCAAGACAACCTACAACTTTTTTCGATTTCATCGAAGCCGTTCAAACCGTAATAAGTCAATATCCAATTAAGCATATTATTTCTCATTCATTTGGTTCGGTGGCGGTGTTGAATATGCTGGCCAACTATCCACAACATATTGAAAAAATAGCCATGTTTACTTCGCCAAATCGATTTAAAGATCGAATGTTATTTAGCGCTGAACAAGCGGGTATGCATCCTAAAACCATTGAAAAATTTATGAGGTCAGTGGAGAAAAGATTTAAGATAAAAATTGATGAGTTGAATGTTAGTGATATTGTTTCAAAAATAGCCATTAAAGATAAATTGATTTTGCATGATATCGATGACAAGGTAGTCTCCTTAGATCAATCAAAACAAATTCAAGCTGCTTGGAATAATGTGGAATTACAAGAATTTCAAGGAACGGGACATTATCGCATTCTTCATAGCAAACAAGCGATGAGAAAGTTAAAAACCTTTCTACTGTCCTAATAAATCAATTTGTGTATGAGATAAAACTGAGCTTCTCAAGTTTTCAACAAATAAGGACGCAAAGGCGTTATAAGCAGCAGCTGAACTGATACTATTATCAACAGGAAAAGATAGCGTAAGACTATTGATTCCTTTGGTTTCATGATACAGTTTCGAAGTATAACTCTTGGATTTATAATCACTATGAACTTGTGGGATTTGATTACTAGGGACTACATCAAATTGAAAAGCCGTAATAGCTCCACCTGGATTGGCATAATAATAAGTTTCTGAGGAAATTTTCGCACCTAAACTTGTTCCTCCTCGAAGAATATCCGAAAAAAAACTTGGACTGATTTGAGCATATTGCTCAATGGTACTTACTGATTGCAAGCCTTCTTCATTTAATGCTCCGTTGGGTAAATCAAGTTCAACTTTTGATAAACCATATCCAATTTCGACTTCTTGAGAGTGCGAGTTTTCAGCATGAAGATCTATTAAAAAACCAACTGGAAATCGACTTAAAACCGTATCCACCGCTGCTTCTAAAAAACTATGGTAAGAGGTATATCCCTGAACGGCATAGGTATTATTCGCTGTTCCTTCCACTAACGTAGTATCCACATTGAAATGGGAGGGATGGACATTGGAATAGATTACATGAGGGTATTTTCCTCCAGTCAATTCAAAAATATGATACACTAGTCGTTCCGACAATTCTTTCGTATTGATTTCTTGATAAAGTTCAGAGTCGATGACTGGAATGGTGGATGGTGTCAGATTACCTCCATGCGGGATGGTGATAATAATTGGGGTGTTGCCGACTAGATATTGAATATGACCTAAAGGATTCCCATAAGTATTTCCTGGTTGATAGGTAGTATTCGGTGCTGGAGGAATTGGTTGTAAAATGCGATCGCCACAGCCGATGAAAAAAAGAACAATTATTAAAAAATACTTTATTTTGTGCATGATAAAAGTGATATTTGATTAATTATAATATGAATATCATTAAAAAAACACTTTTAATAATAGGTTTGACTGGATTGATATTTAGTCAGGAAAAACGTTCCTTTTCGTTCTATTATGGGAGTGGATTTGTGAATGCTAATATAGATGGCGATTCCTCTTCAATGGTTCAAGGCGATTATTTTGGAATTTCTAAAAATATTGGAATTTTATTCTTCAATACTCCTTTTAATGTTGGGCTTCAATTTGCGAATAGAGGAGGACAACAAACTATCAATTTGAATGATTTTGTTCTTCCAGGAAATCCTCCTTCTGAAGAAAGCATAGACTTTAATTACGAGGCAGAATTTTTAGATTTGTGGATCAATGCCACTATCAATATTGGCAACAATTCATTCTATTTAGGTCCAGTATATAGCATGAACTTATCGTCCACAATGGATGATTTAATTCTTCCAGCAATTTATGATGTTGATGTCTCTATGTTTGATATCAAAGAAGGTAATTTAGGGTTGATGCTTGGAACCTCTTGGCACTTATTCCGTTTAGTAGGTCTTTCCCTTGAAACCTATCAAGGATTAGAAAATAACGATAAACAACGCCTTTCAAGTTATAATTTGAAATTAAGTATCGGTCTTTGATTTCGTTCGTCGACAGCGTTCGCTACAATATTTGACCTGCTCCCAACAAGATTTCCATTTTTTTCTCCAGACAAATGAACGATTGCAGACCTGGCAGATTTTTGAGGGAAGATCAGATTTCTTAATCATCGTCAAGCGTTACGAAGCTGAGGTATCACTTTACTTCCAATAAGTTCTATGGACTGACAGAGTTGCTTGTGGTTTAGTTCTGCGACACTCATCTGGAACATAAAACGATTGATTCCCCCTAGGCTTTCACTATGTCGTAAAATCTTGTCTGCTACTTCATTGGCTTCTCCTACTACTAAGGCTCCGGTATACCCATTGACATATTCATAGCTTTCACGGGTGATTGGTCCCCAGCCGCGTTCTTTTCCAATACGGTTAAAAGAACGTGCATATCCAGGAAAAAAGTCTTCTGAGGCTGTTTTAGAGTCTTTTTGGACATATCCTAAAGAATGAATCCCTATACGAATTTCTTCTTGAGGAAAACCCATTTCTATCCAGGTTTGACGATAGAGATTGGTTAAAGGAGCAAATCGATGGGTTTCACCTCCAATAATAGCAATCATTAGAGGTAAGCGAAGTTGAGCCGCACGAACCACGGATTGAGGAGTACCACCCACACCTACCCAAATCGGAATTTTATCTTGATAGGGTCGAGGATACACTCCTTGACCACTCAGTTCGGGACGAAACTGACCTTTCCAATACACAAACTCATTCTTCTGGATTTCTAATAATAATTTTAATTTTTCATCATAAAGAGCATCATAATCTTCAAAACGCAAGCCAAATAGAGGAAAAGCTTCTTGGAAGGAAGCTCGACCGACTACCATGCTCGCTCTTCCTTTGGAAATAAGATCTAAGGTCGCATAGTTTTGATATAAACGTACAGGATCAGTTGCAGATAAAATAGCAACAGCACTGGTTAAAATAATGTTATCGGTAATCGCTGCAGCCGCAGATAAAATATTATGCGCAGCAGAATCGAGATATTCTGGACGATGATGTTCCCCAATTCCATAAGCACTTAATCCACAATCATCGGCTAATTTGATGCGCTCTAACAAGTCTTGCATCGATTGATGACGATGTTCAGGGGAACGATCAAGCGGATTTTCTAAAGAAGCGAAACTATCTATTCCAATTTCCATGATGGTATTTTAAAAAAGATTTTTAAATTATAAAAAGACTTCAGTAAAGGACAAACAATGAAACAACTAAAATATTCTTTTTTTATCATCTTCAGTGCTCAATTATTATTTGCTTGGGGGAAAACCGGTCACCGAACCGTGGGAGAAATTGCGCAGTATCAACTGACTCCTAATACTCTCAAACAAATTACTTTAATTTTAGGAGATCCTTCTCTAGCAGTAGCCAGTACTTGGGCTGATGAAATGCGCTCTAATCCAGATTTTAAACCTTATGATCCTTGGCATTATGCCAATATGCCTCTGGATAGGGAATATCATGAAATTAAAAAGTCAGAAAAAGGAGATATTGTTCAGGCCATTGATTTGTGTATTAAGAAACTGAAAGATCCCAAAACCACACAGGAAGATAAAGC
>sequence31
AATCTTTGTTAAAGTAGCACCGGATACATCTAACGATTTTTTTCTTAAACTTGGGAATTTTTTAAATATGCAAAATAATTTAGGGATTAATATTGGAAATACTAAATCCCAGTCTGTGGAAAATCTTAATCTATCTAGTTCGATCTTTAGGCATGAAAGCGGTGGGTTAAGTGGACCAGTTTTGTATAATTCTACTTTAGAATCTGTAAAATTTTTGTCTAATAGATTTAATTTCCCAATCATAGCTACAGGAGGGGCTTCAGATTATGATTCTGTTAAAAATCTTCTTAAAAATGGAGCTTCCTTGGTTGGAATGGCTGCTCAATTAGTATTTAATCCTTTTGAAATTGCTAAAATTAATCGAGATTTATCTAATGAAGTTTAAAGCACTATTTTTAGTACTGATCTTAGTTTCTTGTTCTTCAAATGTTGCTTATGGAGATTATATTGACTCTAATGGAATGTCTAGAAAAGAGATTGAGGCTATTCGTTATCATCCTCCAGTTCAGGTAGGAGTTGCTTCGTATTATGGTAAAGACTTTCATAAAAAACGCACTGCTAATGGAGAAATTTTTGATATGTATAAGGTTAGCGCTGCTCATAAAACTTATCCATTAGGTACAGTCGTAAAGGTGACAAATCTTAAAAATGGCAGAAGTATTCGATTAAGAATCAATGATAGAGGTCCTTTTGTAAAAGGTAGAATTTTAGATTTATCTTATGAAGCAGCAAAAAGACTAGGGTTTCTTTCCTCTGGTACTACGAAAGTTCGAATTGAAGTCCTTAAGCTTGGAGATAATCAATTTTATAGATGAAACCAATCTTGTGCATAATAAACCCAAAAAGCGGTGTTAAAAAGTCTTTAAAAGCCTTTAAAGACAATCAAAAAAAATTTACTGAAAAAAATTTTGAATCTGAGATTTTAATTACTAAAGAGTCCGGTCACGCTGAAAGATTTGTTCAAAAAGAAGATTTATCAAGTTTTGATCGTTTAATTATAATGGGTGGAGACGGAACTGTCAATGAGGTTTTAAATGGGTTGTATCTTTCAAATAGATTGGAATCGACAAATATTGCAATTATTCCAACAGGATCAGGAAATTCAGTAATGCATGATTTAAATTTGTTAGAAATTGATAAGGCATTCGATGTTGCTCTAGGAAATAATATTATTAAAATTGATTCTATTTTAGCTCAGTTTGACAATTGCACTAAGATTAGCATCAGTATAATAGGTTGGGGAATGTTTTCTCAGGGAAATGTTTTGGCAGAAAAACTTAGGTTTATTGGAACAATTAGGTATGATGTTGCTTCCATTATCACTCTTCTTATAAAAAAATCTTACAAAGCTGAATTGAGCATTGATGAAAATACCAGGAATGATATCTCTTGTTCATTCTTAGTTGGTTGCAATAGTAAACATACAGGTAAAGGTATGTATATTGCTCCTGATGGTGGATTTCAAGATGGAGTAATTGATTTTGTAATAGTAGAAGACAAGGTGTCACGATTCCAAATTGCTAATTTATTTGCTAAAGTATATAGTGGAAAACATACTATTCTTCCATATGTTAAAATGCAAAAGGTAAATTCTTTCAAAATTAATTCTAATCAAGAAACTTTTTTTAATATTGATGGTGAGCTGATTAAAAGTAAATCTGTTTTGGCTAAAGTTTTTCCCAAGAGTGTAAATATTTATGTTTAATTTTTCTGAAAAATGACTTCATTACAATCAAGAATATTAGTTGCAGCTATTGGTTTTCCAACAGTTGTTTTTTTAATCATTCAAAATAATTTACTCCTTCTAAGTTTATTGGCTGTTGCAACTCTAGTTGCTGTTAAAGAATATATTCAAATGCGTCCCGAAAATATCACTTGGTTTATTTGGGGATGGGGTGTTTTATATATCATCTCTGGAATGGGTTCTTTTTATTTTTTAAGACAGATTGATGAAAATGGAAGTGCATTTGCGTTGCTACTTTTTGTAGGTGTAAGTATCAATGATACATTTTCATATTTCATTGGTAAAGCGTTTGGAAGGAATAAATTAGCTAAGAATATCAGTCCAAATAAAACCTATGAGGGACTATTTGGCGGGCTGCTTGGTTCAATTATTATCGTAGATTTTTTTGATGTTATGATTTTTGATATTGCTCTAAGAGAGAAGATTCTTTTTATTCTTGTTCTTAATATCGTTGGGTTATTTGGTGATTTGTTAGAGTCTTATCTTAAAAGAACTGCTAAAGTTAAAGACTCATCTTCACTATTATTAGGACACGGAGGAATGTTAGATCGTATAGATTCTTTATTATTGACTTCTCTAGTAACATTTTTTTATGTTCTGATTCGTTAAATTTTATGAAAAAAATTAAATCCATCTTAGCAACTGATTGCGGAAGTACTACTACTAAAGCTATTCTTATTGAATGGAAAGATGATCGATATCGGCTAACTTTCCGAGGCGAGGCTCCGACAACAGTTGAAGCTCCTTTTGAAGATGTAACTAAAGGCGTTCTGAATGCAGTCATGGAAGTTGAAGAACTTTCAGGACGAAAGATTTTAAACGAGGGTAAAATTATTTCCCCAGATTCTGGATCTGAAGGAGTTGACATATATGTTTCTACTAGTTCAGCGGGTGGTGGTCTTCAAATGATGGTTGCCGGGGTAGTGAAATCAATGTCTGGAGAAAGTGCTGAAAGAGCTGCCTTAGGTGCTGGATCTATAGTAATGGATGTACTTGCTTCTAATGATGGTAGACTTGCTCATGAAAAAATTACTCGAATTCGACAATTAAGACCCGATATGATTCTGCTTTCTGGTGGAACAGATGGTGGCACTACTACCCATGTGACTGAATTAGCTGAAATTCTTGCAGCTGCGAACCCTAGACCAAGATTAGGCCAAAATTATAAATTACCAGTAATTTATGCAGGGAATAATAAAGCTCAAAAAGCAATTCAAGATACATTAGGTGAAATTTCTGATTTAGATATTGTAGATAATATTCGTCCTGTTCTTGAAAGGGAGAACTTAGAACCTTCAAGAGACAAAATTCATGATTTATTTATGGAGCATGTGATGGCTCAAGCTCCTGGATATAAAAAATTAATGTCATGGACTGATGCGCCAATTATGCCAACTCCTGGAGCAGTTGGATCTTTGATTGAAATGATTGCAAAAAAAGAAAATATTTCTGTTGTTGGTGTTGATATCGGTGGAGCAACCACGGATATTTTTTCCGTCTTTCAAGGAAAATTTAACAGAACAGTTAGTGCTAATTTAGGGATGAGTTATTCTATTTGTAATGTATTAGCTGAATCTGGATTGGATAATGTTTTAAGATGGGTTCCTTTTGATATTGATCGAAGTGAATTAACAAATCGAATAGGGAACAAAATGATTCGCCCAACAACTGTTCCTCAATCATTAGAAGAATTAGTTATCGAACAAGCTATAGCTAGAGAAGCATTACGATTATCTTTTATTCAACATAAAGAATTTGCTACTAGCCTAAAGGGAGTTCAATCTGAAAGAACAATTTCAGATGCCTTTGAACAATCATCTAGTGGACAATCCTTAGTAAATATGATGGAATTAGACTTGCTTGTCGGTTCTGGTGGTGTACTTTCTCATGCTCCCAGAAGACAACAATCTGCTCGTATGTTAATTGATGCATTTATGCCTGAAGGAATAACTCAATTAGCTGTCGATTCAATTTTCATGATGCCTCAATTGGGAGTTCTAGCCAATATTGAAAAAGATGATTTAAAAGATGAGGCTAGTCAAGCTGCTCTGGAGGTATTTGATAATGACTGCTTAATAAGATTAGGTACATGCGTGGCTCCGGTTGGTTCAATTAAACCAGGTCAATTGATGGCAGAAATCACATTGAATTTCCAAGATGGTAAGAAAGAAATTATTCAAATCAATGAAGGTGATTTAAAATTAATTGAACATCCTTATGAAGAGATTAAAGTATCTATTACACCTTCCAGAGGTATTGATGTTGGGGCAGGTAAAGGGGAAGCAATCGAATCGTCGATTTATGGAGGTGTAGTTGGACTGATTTTTGATGGTAGAAATCGTCCAATAACCTTATCAAAAACACCTGCTGAAAGAATAGAAAGTTTATCGAAATGGTCTAATGCAGTTGATGAATATCCAAAGGGAGATTTATTTTAATGGCTCATTCATATACACCTGGACTAAAGGTTTTAAAAAAGACTCTTTTTAAAAAAGAGAGAATCCTTCCCCTAAAAGGAAAAGTATTAGTTAAAAAAGGCGATCAAGTTTCTCCAGAAGAAATTGTTGCATCTACCAATCTTCCTGGAAACGTCCAAATGTTGAAGGTTAATAATCTTTTAAATATCGAACCTCAAGACGTTAAAAATTGTTTAAAAGTCAAAGAAGGAGATGTGGTCAAAAAAGGAGATTTAGTTGCTGAAACTGCTGGAATTTTCGGAATGTTTAAATCTTCAGTAGAATCGCCTGTTGATGGTACAATAGAATCCATTTCAGATACTACTGGAAGAGTAGTTGTTCGAGAGGCTCCTATCCCCGTGGAAATCGATGCCTACGTCCATGGACAAATTGAAGAAATTATTCCAGAAGAAGGTATTATTTTAGCTTCCAATGCAGCATTTATTCAAGGAATCTTCGGTATTGCGGGAGAAAAAAGAGGAAAAATAAAAATTTTAGTTTCTAATCCAGAAGACGAGATAACGGAAGATATGATTTCTATAGATCTAAAAGGAAAAATTATAGTTGGTGGATCCTTTATAAGTCTTGCAGCTTATAAAAAGGCAATTAATTTAAAAGTTGCTGGAGTTGTAGTGGGAGGATTCAATTATTTTGATTTAAAAGATGTGCTTGGATATAATTTAGGAGTTGCAATTACAGGAACTGAGGATTTAGCTACAGCCCTGATTGTTACTGAAGGTTATGGATCAATCCCAATGAGTAATGCTACATTTAGTCTTTTGAATGCTTATGATGGGCAAGAAGCTTCTGTAAATGGTGCAACCCAAATTCGAGCAGGAGTGATCAGACCAGAAATTGTCATTCCGTTAAAGGATGATACTTCCAATTTATCTGAAGTCAACAAAGAGCCAGAAGGAATTAAAGAAGGTAGTTTAGTGAGAGTGATTCGTGCTCCTTATTTCGGCAGATTAGGAACAGTTTCATCTTTGCCATCAGAGTTACACAAAATGGAATCTGAAACAATGGTTCGTGTTGCAAATATTCTTCTGAAAAACACCAAAGATTTAAAAGAAGAAGAAATTTTAATTCCACGTGCAAATTTAGAAATGGTAGAACTTGAATAATGGAAATGTCATCTGAAGACAAGAAATTTTTAGGTAAGCTCGCAAAAAAAATTGTAGATTATCAAATGGTAACCCCTACAATCTTCTTTTTAGAGATTACAAAACCACTTAGTTTTATTGGAAGTCAAGCCATGGTTTTTTTTGGACCGATAATTAATGCATTTGTCAATTCTGATGGTTATTATAGGGCAGCTGAAATTTTTGAACATCCAACAAATATTGAATTTTTAATTCAAGAAATTGAAAGAATATCAAAAAAATGAAGTGTATTAAATGTAAACATACCTGGAAAAGAACAAAATGGTATGAATACATTAGTTTTTTATCTACTTGCGCCAAATGCGGAAGTCGATGGATTTTGAGATATTAATATGAATAAGCAAACGTTACAGAATCAAATTGTACTAATAGGAATTGTCATATTGACTTTCTTCGTCTCTCGTTTTGAATTTTTCAATTCTGAAAGATCTTTTATGTTCGCTATACTTTTACTAATAATTTATATCTTATTTCAAGAAGTTTCTAATGTAAGAAAAAATCCGGACTCAATTTTTCTACGCACTATTCCTGGTTTAAAAGCTGTTGAAGAAGCTGTGGGAAGATCAACCGAAATGGGAAGACCGATTTTGTATGTTCCAGGAATCATGGATATGAATGAGGTCGAAACAGTAGCTGGGGTTATTATTTTAGGTCATGTAGCTAATATGACAGCTCAGTATGAAACGAGTTTAGATGTTCCAGTTTCCAGGTCCATTGTGATGCAAGCTGCTAGAGAAGCATGTAAGGAATCATATCTTCGTCAGGGAAGACCAGAATTATTTAATGATGATATGGTTCATTATGTTACTGATGAACAATTTGCGTATGCAGCAGGAGTTAACGGGATTATGCAACGTTCAAAACCTGCTGCCTGTATGTATATGGGTAAATTTTATGCAGAGTCTCTACTTTTCGCAGAGACTGGGAATGGAATTGGAGCTATACAAATTGCGGGTACTGCATCGCAAGCTCAAATTCCATTTTTTGTAACAGCTTGTGATTATACTTTGATGGGTGAAGAGTATTTTGCAGCTAGCGCTTACTTATCGGAGAAACCTGAATTGATTGGAGGGGTGAAAGCTCAGGATACTTTTAAAATTTTCTTAATTTTTCTTATTGGTTTAGGATTTGTAGCTCGAATGCTTTTTGATTTGGATTTATTATCTTTTAACTTAGTGGATTTAATCGGATAACAGATGTTTTTAAGAAGAACAATACCAATTTTTATTGTAGGATTTTTTGGATCATTTACTCTTTTTGGTTGGTTTATTGAAAACGAATCAATAAAAGCTTTTATCAATGATGATGCTACTCAGTGGTATGACATTATTGCCAGCTTTGCGATTTTTTTAGGAGCATTAAATTTATTAAAATTACAATCTTTAAAAGTTTTAAAACGCCAATCTGGCTGGCAGTATAGTTTAATTGCGATACTTTCATTTTTATATGTTTTTGTAATTGGGTTTTTTATGAGAGGT
>sequence32
AAACCAGCAGCTGAGACAGTGATTAAAAAATAGCCACACTTATTTTTTACCATATCATCGAATAAATTTCTTGCTGCATAAACATGAGACATAACATTTATTTGCCACATTTTTTCCCACTGATCATTAGGTATATCCAAAGTACCTAGTTTTTGGTAACCGGCATTGGAACAGTAAATATCAATCGATCCATTTTCTTCAACAATTTTTTTGATCGCAACAGAGACCTGCTCTTCATTGGTTACATCAACCATATAGCCCTTAGCATTGCATTGAGCTGCAATAGAAAAAATACTTGGAGAAATATCAAATAAATGGAGGGAATTGGGGCTTTCTTTAGCGAATTTTTTGGCAAGACCAAGCCCAATACCGGAAGCTGCTCCAGTGATGACTACATTTTTTTCAGTTAGAATCATTGATTGAATTAGTACCCCAGCAAGGACTCGAACCTTGAACCAATGGCTTAAGAGGCCACTGCTCTACCATTGAGCTACTGAGGCAAAAAATCTTAAGCAAATTAATGAAGTTACTAACTAATAATTAAACTGGTTTAACATTGACGGCTTTTTCTCCCTTATCGTCTGTTTCAACTTCAAATTCAACTGCTTGATTTTCTTTCAAGCTTTTAAATCCTCTGTCGGACACGATATTGGAGTAATGCACGAAAAGATCAGAACCATCCTCTTTAAGGATAAATCCATAACCTTTTTTGTCGTTAAAGAACTTGACAGTACCTTTGTGTTTATCGCTCATTCTACTCTCTTTATTAGTTAATAATTCAAGACATATTAGTTAGTTATTTATCTATAAACAACAATTTATATTTTTTTTAAACCAGCTGCAGAAATATCTGTTGAAAATTTATAAGCAAAATATAATGAAGTAGAATAAAAAACATCACCAATGATACTATTACTATAGAAAGGAATTGCTAAAGCATAACAATGAACCAGTCCCTGAAGATTTAATGTATACATTCCACTGGAAATCCAAACTCCAAAATTACTCAGTAAAAAAAAGATTGTAGAACCAGATAGGCTTAAGGCTAAAACTTTTGGAAAATTGATAGATCGAAATAGTTTAGTTTTTGTTAAAAAAGCAAAAAGGATAATCGGTGAATAAATCCATATAAATCCTGGAGTTAAAATCTGAAAATCAGTGTAATAACCATTATAGATATAATTATTAATAAATAAATCGCTTACAAACATTGCCAGCATTGGAATCCAAAAAAAAGAGGACCCTTTTAGAACTTGAGATGAAAAAACCATTAAGCCAATTAATGGGGTAACATTTGGAGGGTGGGGTACTGTTCTTCCTAGAACTAGAATCAATAAAAGAACTGCAAATGTTAGATAGTTTCTATTTGTTTTTAAGATCATTTAAATGTGTTTTCCCATGTTCATCAAAATATAAATTAACAAAACTATTCAAGTTTGATAATAAATTATTTGCATTAGCAGTATCAATTGTTTGTTTACATTTCATCGCATCAACTAAAATTGCGTGCAATATTTGAATCTTTTGTAAATATAAACTATCTCCACTATTGATTTTAATTCTCTGAGTTAAAAAATACTCACTGATGATATTTTGTATTTCCTGCGCATGTTCTTCTTTAGATATTGTCCATCGAACTATTTGAAAACTTTGATCCTCAATTCCTTGATTCTGTTTTATGAAATTCATTGATTTAGTGATTGTAAAGACATGCTCTTCAATCATTCTAATTCTCATAGCATCATCATAAATACCGCAAGGTAATTGACAGTGGGCCATTAGTGAAGACAATAGGATAATAAAATAAATTGCTATTTTTTGCATTTTGAAAACTAATTAAAGTATTTTTTATAAACAAAATTAAAATCGGTATGAATTTGCTTTTCCTTTAAATCAAAATATTCTAAATCGAAATTTTTATGTTCAGAAGAATAATTACTCGAATCATATTGAGAAAGTATATCTTTCAATTGCTTAGATTGTTGTAAATCAAGAAAAATAGAAACTCGTTTCATCACCTGTTGGAAATTGTTTAATAAGTCGCAATATTTTATAATTATATAACTATTAGGATTTAGATTTTTTAGAAGTTTTTCGGTCTCTTCATACCAAATTTTTATTTCTTGATATGCAGATTTTCTATAAAGGATTTTCTCGATCTTTTTCAGCTTATTACCAAACTTAATTTTTTCTTGCATGGAGAAATAAGAAACTAAAACTTCTTTTGGATCTCTTATGAGAATGACCATCTTTATGTCAGGGAAAATTGACTGAATAGTCTTTCCCTTGAAAATAAATGGATTTGATTTTGATAAAATCTGAGCTTTGTTACCCAAATAAAGTTGTTTTTTCCAAAATTCCTGCAAGAAAACAACAGAATCTTGATGACGCTTGATATTTGAGGGATTGTCAATTAATAATTGGGATGAAAGATTAGAAAACTTTTGGTCCACCTTGAACCAAGGAATCAAATGATTTGAAATCCATTGAGAATCTAATCGGTGCAGAAACAAAAGCATTTCATCTTCTTCAATTTTATTCAATTTTACTGAATGTCCACCTTTTCTTCCTTCAATGCGTGTAAGTTGTAATTTTACAAGCAAAAAAAAGACTGGATTCAGAATTTTTCTTAAAATGACAGAAGGAAAAATATAGTCCCAGGTAGTATTGCTTTGAAATTGGTCTAGATTCGATAAAACCTTATGGAAGAAAGTAGTCCCACTTCGATTGACTCCCATAATTAAGACAGGGTTATTTATTTTTATTTCTCTAATAGAAGGAAAAAATATTTTGTCTAAAAAAAGAAACAAAGAATTGATCAAATAATAAATGGGATAAATGGTTAAAAAAAGAAAAGCAAATAAAATTTTACCACTTCTAATCAGAATAATTACTGAAATTATAAAAAGACCCAACGTGTTATTTGGGATTTTCATTTAAAAGTTTTAGCTTTTTTTTGCTTTAGGACTTTTTTTCTTGATTTCTTTTTTATCAGAAGTTTCTTTAGCAGGTTTATTTTTTAATAAGGATTTAATTTTTAACTTTAACCTTAGTTTTCTTTTCTTATGCTTACTATTGACTAATTTCTTTTTCTTATTCATTTCTCTTTGTCTCCTTTAAAAACCATCAGATATAATCCAATGTGTGCAGCGACAAAAACTATAAAGAAAAAAATTGGAAATAACAAATCATGCCAAAAATTGCTCATTTTTTTTACCTATTCAGTTAAGTTGTTTGATAAGGAACTGTACTTCTTTAGTTCCTTGCTCCGTAAATTGCGAACCACATTCTAAAAAATCAAATCTTTTATGAAATCTAAGTGAACCCGGATTAGGCGGTTGAATATTTACTTCGCAAATGATACTAGAAAAATTATTCAAGCAAGAAAACGTAATTAGGTCAAGATAAAAAGCTGTACCGATCTTCATATTTTGAAACTGAGGCATTATTGATATTCTATCAATATAAATAAAATTAGAATATTTTTTGGAAACCCATTGATAGTTTGGGCTATCATAATTTTTATCTTCAATAAGGCATAACAAAAATCCTGCGGGATTTCCATTATAAAAAGCTACTTTTAAATAATGAGAATTTTTAACCAATAATTTCAATTTATCCAAGGTCAAATTTCCAACCTGTGGCTTATTTAATTGATTACATTCAAAGATAAATTCTAAATCCTCTTTTGAAAAATCTTTGAGTTGAAGCATGCATTATGCTCCAATTAATGGATTGGTTGAAGAAATAGCATTTTCTGCTACTCCAATAAAAAACCAAGTAAATCCAATAAATAACATCAAAGTAATCATCATTAGAATCATAGCAACAATTGAAACTCCTACAGCTCTAACAGTGGAATGAAAATCTAGCGCTTGTCTGACTGCAACTGTAAATGCAGCAATTTGGAGAAAAGGAATAATTAAATCAACCAGACCACCAATTAAGGGGATGACACTAAAGGCATACAAGAGACCGGGAGCTGAAGCAAATCCAAGAGTTCTTAAGAGTTCGCCTGTATTTGAAGACGTATGAGGTTCAGGTAAAATTTTTGTTCCTACAAAAACAATAAACATTGACCAAATTATCCATCTTACAACACTGCCAAGAGCGCCTTGAGCTAAAATGATTGGATTCAAACTACCAATTACGATACCTTGAACGATTGAAACTAAAATAACAGTCATTAACGCCTGATTGGTTAATGATTTATCGGATTCAACCATCTCATAAAATGCCACATCTAGAGTTATAGCTTTATATAATCTTTGAAAATATGTCATCTTTTTACCTTTTTATAAACCACCTTCAATACAAGTGGTATCAAAACCTCCTCTTGTATTATACACAGTAGTTATCTTTATACGATTTGTCTTGAGAAGTTTTTTCAGATCCTCATAAATCTTTTTGGTCACCGCTTCTTGATAAATACCAACATTTCTGAAACTAACAAAATAATACTTTAAGGACTTTAGTTCTACGCACTTACCTCCCTCCGGATAGTATTCAATAATAACATCAGCTAAATCTGGCAATCCACTAAAAGGACACACAGCACTAAATTCTCTAGTCTCTGTTACAATATATTGATTAGGACTGTCAAAAGGAAATGCTTCTAATAGATCTGAATTAATAGAATCTTCAGATAAGAACTCAAATTGTCTTCCGTCGGCTTTAGGCATTTCCCCCCCAATAAGTACAACCATAGTTGTCACCTTCGCTTACTGTAATTGAATGCAAAGACTTGAGGTCGTTTTTTAAATTGTTCCAAATCCATTGAGCTAATTTTTCAGTTGTAGGATTTTCAAGACCTTGAATATCATTTAAATAAGAATGATCCAAAATTGAATGGATTTTTTGATTATATATTTGATCGATGTCATAAAAATCTATTACCCAACCTGTCTTAGTATTGATTTCATCTTGAATAGTAACAGTAATATGAAAAGTATGTCCATGTACTTTGGCGCAAGGATGACTAGTATCTATTTTGGTCAACTTCCTTGCCGCGTGAAATTCATATTTTCTTTTCAATTCAAACATTATTTTATTCCCATCAATTTATGAGTTTGCAAACTTAACTTCCATTTTGGATTTTTAATACAATAATTTACGCATTCTAAGGTGCTTTTTTCTACTTCCATTCCATCCATGGGTTGGAGAAAAAAATGGTCAAATTGAAATGATTCAAATTTTGAAGGGTCAAAATTTTTTTGAGGGTATACCAGTTTTAATTCATTGCCAAATTCAAGAACTAGTTTTGAATTTGCTTTGGGGCTGACGCAAATCCAATCAATATTATCGGGAGGTAAAATTGTTCCATTTGTTTCAACAGCAATCTGAAATCCTTTACGGTGTACTTCATCGATTAATTCTTTATCTAACTGCAACAAAGGTTCTCCTCCTGTAAAAACAACAAAAGGTTCGGAGTCACCTTGCCATTGATTTTCAATTAAATTTGCTAAGCTTTTTGAATGATATTTTCCACCATTTTCACCATCAATACCCCAAAAATCTGTATCACAAAATTGACAAATAGCTGTTGATCTATCCTTTTCAAGACCAGTCCAAAGATTACACCCCGAAAAACGACAAAAAACTGCAGGTCTTCCAGTATGATACCCTTCCCCCTGAAGAGTGAAATATATTTCTTTAATGGAATACATTATTGTAGGCTTGGGTCAATTAAATTTAACTCCTTAAAACCATTGATGCGCAAAATGCAAGCATCACATTCTCGGCAGGGAAGTCCCTTAATTGGATCATAACATGAATGTGTTAAAGAATAATCTACCCCAAGATTTAATCCCATTGTAATAATTTCAGATTTCTTCAAATGTATCAAGGGAGTATGAATTCGAATTTTTTGAGACCCTTGTGAAAACTTTGTCGCGAGATTAGCCATTTCTTGAAATGCCTTGATAAATTCAGGACGACAATCTGGATATCCGCTATAGTCCAAAGCATTCACGCCAATAAAAATGTCAAAGATATTGTTGACCTCTGCATATGCAAGAGCATAGGATAAAAAAATGGTGTTACGAACTGGCACATAGGTGACAGGAATTTCTTCATTGTTACTTCTTTTTTTTGGTACTTGAATGTTATCTGTTAACGCAGAATTCCCAAACTGTCTTAAGTCAATAGTTAAAATCTTATGATTATCAATTGATAATTTCTCAAGAATTTTCTTAGCGGCAGAAAGTTCGTATTTATGATTTTGTTCATAATCAAAACTAATTGCGTGGACAATAAATTCTTGGTTCGCCTTGTAAAGTACTGTTGTCGAATCGAGACCGCCACTAAATAAGACTACACAATGTTTCTTATCTTTTTTCATCAATGGAATATAAAAAAATTAGATTATATATTAGTCCATAAATAACTTCATCAATGTTAAAAGTCTCTGTAATTATTTCCACCTACAATAAATCGAATTTTTTAGAGAAAGTTCTTTGGGGTTATTCCAAGCAAACATACTCAAACTTTGAAATTATAATTGCTGATGATGGTTCTAGCGAAGAACATCAGAAAAAAAATAAGTCTAACCTATTGTTCAATAATTTGGAATATCAGTATGTCCATCATGAAGATGATGGTTTTAGAAAATGTAAAATTCTTAATCAAGCTATACTTCAAAGTAAGGGAGATTATTTAATTTTTTCGGATGGTGATTGTATTCCTGATCAAGATTTTGTGGAAAAGCATGTTTTTCTTGCGGAGAAAGGTCGATTCTTATCTGGAGGACATGTTCCTTTGAATAAAAAAAATTCTTCATCAATTTTTAAAAACGAT
>sequence33
ATCTCCAATTTTGATAGCTTTTAAATCTTTTGCATCAATTTGTAAAACTGCTAAATCAGATCCTTTATCTAGCCCAACAACTGTCGCCTTAAATACTCTTTTATCAATTAATTCTACTTGAATTTGATCAACAGGTTTATCGTTTCTCTCATCATAAATCACATGATGATTTGTCACTATATATGCATTTTTTTCATCGACAATAACTCCAGATCCCAATGATTTAGATTCATATTCTTCAGGAAAATATCTTCCCCATCCTCTGAAATAATCAGAATATTCTCTCATGGAAACGGTATTAGTAGTGGTGATAGTCACTACAGATTCGTTCGCTCCTTCAACAATATTTGCGAATGAATCACTAAATTGCGACAATATGGATGATTGGGCAAAAATATTTGATATAATTAATATTCCAAAAAAAATTTTCTTCATTGTTTTTCCTATGTTATTTTTTACTAATACCACTTAAAACTAAAATTGTTCCCTTATAATCCTTTATCTAAAAAAGACTCAAATTCTTTCTTGTCTCTCGTTAATCCAGGGAAAGTACCGATAATATTATCATTAGGATCAAGGATTACATAAAAAGGAAGGGCTGCAGTTTTAAATCGCTCTATTTGGTATTGTCTCTTTTGATTAAAATCTTTTCCTGAATCTGTATATAAACTGACTAAAACGTATTTTTGTAATTTATCTTCAATTGAATTAATCGTAAAAATATTGGTTTCCATCCATCGACAATTGGTGCAGGTTACTCCTGTAAAATCAATAAAAATATTTTTGTTTTCTTCTTGAGCTTTTTGAAATCCTTCCTCAAGGGTATTTACCCATAATAAATTAGAACTTGCTTTTTTCGGAGGTAAATATGATTGAATGGTTCCATTAATGGAGTATCCCAAATTACCCGAGAACAAATAAAGTGAAAAAATTAAAAAAAATGATGCAATCAGAGCTTTTTTACTTGTTAGAGGTTGAATGGAATCGTGTCTAAATCTTATTAGTCCGAATAAATAGATTGCAGTCAATAGCATAAGTACGGACCAAAGAAAGAGAACAACGTCATACGAAAAAATATTCCAATTCCATACTAAGTCAGAATTGCTTATAAATTTGAATGCTGCAGCTAATTCTAGAAAACCCATGACAACCTTCACATTATTGAGCCAACTTCCAGATTGGGGCAATTGAGTTAGATATTTTGGAAATAATGCTAAAAAGAAAAAAGGAGATGCAAAAGCAGTACTAAAAACTAACATTCCAATAATGGGCCAAAACCATTCTCCTTGAGAAGCAGCGACAAGAATCAGCCCCATAAATTGCACCGTACAAGTAAACGAAGTTAAGGTAAATGTTAAAGCCATAAACAAGATTCCTAAATATCCTTTAGAACTTTCTTTCTGTAATGAGAATCTCCTTAAGCTTTCAGGTATCTCTATCTCATAAAATCCAAACAAAGAAAAAGAAAAATAAATAAACAAAGCTGCTATAAAAATATTTACATAGGGATTAGCTGCAATTTGATTTGCTCCAGAAGCACCTAAAATAATTGCGAGCAACATTCCAAGAACTGTAAATGTTCCTATAATTCCGAACATATAAACTGAAGCATCTTTTATAGCAGATTGGTTAGATTGCTCAGCTCGATGAGTAAAATAAGAAATAGTGATTGGAACCATTGGAAAAACACATGGAGTTAATAACGCTAAAAATCCCATACTCAACGCAAGAATTAAAAAAGATAAAATATTATTATCCGCAATATTTAAAATAGAATCTGAATCAAAATCAAAATTCGAAATCAGTTTTTCCGTTCTCGGATTTCCATCAATAATATTTACAATTATTTCTTCAGAATAAATTGTTGGAGGATAACAAATTGTTTCATTACAAACTTGATACTCAAATTGAGGATTAAAGGTTAATTGATCTCCATTTTTAACTGATGAGGAAATTTTAAATGGTGCACTAATATTAAAATTCCCTTTATGGAATTTAGTTTCAACTTGAAATCCCTCATCAAAATCAGATATGGGATTTGGCTCAGTTATTTTACCAACTTTTTCAATTAATGGACTTTCTACGAAAATTCTTGATGGAGTAGGACCTCCCTGAACTCCATAAACAGCGTATATTTTCCAACCCTCTTCAAGATTTATATTTACTTGTAATTCAAAAATTTCTTCTTGGTAAAGATCTTTATCGTAAGAAAAGCTTAGATTAATAGGCTCTAAAAATTGGGCAGAGGCTGTCGTTAAAAACAATAAAGTATAAAATATTTTTTTCATCAAATTATTCATTTTATAATATATTACTGCCCGGTTTAATTGGTTCCACATTTTTTAAATGTTCAGGGACATGACTTTTATCAAAAATTGAAGCTTTTAAGGAGCAAAGTGAATGAAAATTTTTATGTACCATAACTGGTTCAATTGATCTATCTACAACAACCCCAACACCAATCACTTCTCCACCCAGAATAGTAATGAGATTTATTACTTCTTTTATAGATCCTCCAGTACTTAGCACATCTTCAATTATCAAAATTTTTTCTCCTCTTTCAATTGAGAAACCTCTTCGAAGACTCATTTTTCCAGACTCACGTTCGCAAAAAATTGTTCTTTTATCAAACCTTCTTCCTACTTCCGTGCCTAAAACAATACCGCCAATAGCTGGAGAAATGACTTTGTCAAAATTCAATTTTTCAAATTTTTTATAAAGTTCCTGAGCAAAAAAATTAAGATATTTTGGATATTGTAAAACTTTTGCGCATTGAAAATATGTATCGCTATGTTTTCCCGAAGAAAGAATGAAGTGTCCGCGCATTAATGCCTCAGTTTCAATAAATATTTTTTCGAAATCAATTTTCATAAAATTCATTAATCATATTATTATATTGTTCTGCTGTTGAGCTAATCGATTCAGAGAAAATAATTGCTCGAGAAACATTAATGATTGTTTCAAATTTAAATTCTTTATTAATTGAAATTATTTCTTGCAAATTTCCTCCTTGAGCCCCTATTCCAGGTATTAAGAATGGAAGTTTAGTTTTAGTTCGAATACTTTTCATTCCCTCAGAATTAGTTGCGCCAACTACAAGACCAATGTTATTATTGTCTAGTTCTTCACATATTTCAATCACTTTACTGGAAGTATTCTGTTGAAGTTGAGGGGCACTTTTATTAGAAGTTTGACATAGAACATAAATTCCTTTATTAGGAAATTGTAAAAAAGGAAGCAAAGAATCGCTTCCTAAAAAAGGATTTAATGTAATAGCGTCAAAACCAAACGTTTCAAAATATGCATTGGCATAATGCTTTGCAGTATTACCAATATCTCCTCTTTTAGCATCACATATTATAATATGCTGATCTCCAATATGCTCAAGTAACTTTTCCAACCAAATAAAACCTTCTGAACCCCATTCTTCAAAAAAGGCCAAATTGGGTTTATAGGCAACGCAAAATTCTCTAGTCTGATCCACAACGGAAAATGAATATTCTATCAAATTTTTTAATGAAGAATTTTTAGGTAGGAATTGTTTGTCAATATCTATACCAATACAAAGATTTGAATTATTTTTTTTGATATAATTTGAGAGTTTTTCTTTGTATGAATTCATTGTGTGAAGTTAATTATTTACGTTCACCAAACAAATATCTTCATCAGAAAACTTTATTTTTTTAAAATCTCACTATGGATTATTTAAATGAATCAATTACAAAAGTTATTGCTGAAACTAATGTCTTTAAAATTGAAAAAATTGAATCGATTGGAAAGAATGATTTTCCCAAACTGATTGAAATTTCTCTACATCTAGCTAAAGAATTTGGGAAAGATGCAATCTTAACTAAAGATACTATTCGAAAATACTTCAACACTGAAAAATCTTTACCGTTTGTTGCTAGATATCAAGGTGAAATTATTGGATTTATCATAGGAATTCCTTTAGAGAGCCTTGAAAATCAACAATGGGTTTTTAGAGATGAATTTTATGGAAAGGGAACTACCTTATATACTTATGCATTTGTTATTATGGAAAAATATAAATCAAATGGATATGCAAAAATGCTCAAAAGAGTCTATCTCAGCTGGGCAAAAAATAGGAGGAATTTTCAATTCATATCCGGTCATATCAAGTCTGGAGTTGTGAACAATAAAGATTCTTCCATCAAGATTATTTATCAGGAAGAAAATTGGAAAGGAACTGGTAAAAAATTTGATTATTATAGAAGATCTTTAGAAACAAATCCAGAACTGTATCTAGTAAATAATCCCCCTATTGAAACTACTTTTTAATCTGATTTTCTATCAAACTAAAAAGCACTAATACCGAAGCTGAAATTGATAAAGATGGTACGACTGCTGCATCAAGCCCGCTTAAATTTCCAAAATAGATTGTTGATACAATTCCAGATAGAATTGAAAAAATTGCACCTAATCTCGATGCTTTTTCCCAGAAAAATGAAGCTAATAATGAAGGGGTGATTGAAGTTCCATAAATTGTAAAAGCATATAAAGATTTTTCAAAAATAGTAGTATCTGCTGCAAACATTCTTGATACAAAATATGCAAAGATACCTAGTAGCAAAACCATGGATCTACTAATCAAGATTATGCTTTTTTCTGAAAATTGATTCTTGGAATATTTCATATATAAATCATTAATGATAACAGTCGTTGGAACTAAAAGAAAAGAGTCTGCAGTTGAAACTATTACACCAATTAATGTTGCAAGCATAATTGCTCCTAATAGCGGAGGTAAAAAATTATACGCAGCATAAATTAATACATGCGACTGCTTTTCAATATCAACAATCATACTAGAGCTTACCCAAGCATTCGCAACTATTAATGATTCTAAAATAACCACTGCAAAAAATAAAATAAATGTAGCCTTTCTAGCAGATTTCACTGATTCGCTCGCAAAAAAACGTTGATACATGTTCGCATCTCCCAAAATTAAAAGAAATGATGGAAGACAAAAATTGAGAATTTCTCTAAAAGTAAAAACTTTGAGAGGCGACATATGATTTGGAAGGCCTTTTGCTAAGAAAGATTCATTCATCCCCTCAAATCCTCCAGCCTGAAATAATAGAATTGGAAAAGCAATAACAAAACAAGTTATCATTAATATTCCATTAGCTACATCCGTATAAGCAACGCTTAATAGTCCAGCTAAAATGGTATAAGCAATTATAAAAATAGCAGCGATTATAGTTGACTGATCTAAAGAGATATTTGATCCCAAATTATCATTAAAGATGGTATACAAAACTGCTCCACCAGCATTAAACTGATAACTTACAATTACTAAATAAGCAGCTAATAAAGCGATAACAGATAGAATCATTGCTACATCGCCAAATCTGTCACCAATTATTTGAGGAACTGTAAGTTTTTCTGACGCTCTTGCTTTACCGGAAACATTGATTAAAACTAAAATCCCTAACATTCCACCAATGGGAAGTAAGAACCCAGCCGCTCCAACCTCAAAAGTCTTTCCAGCATTACCTAAAATTGATCCAGTTCCCATCCATGTTGCTGCCATTGTACCAACTAAAATCCAGGGTGACAAAGAACGCCCAGCAACTGAAAAATCTTCTTGAGTTTTGACTGAATCAGATTTCTGATATCCGATCCAAAGAAGTGCTAAGAGATAAAGTGATATAATTGTATAATAAATCATTGAAATAAGTTAAGCATAATACATATATTAATCTTTACAAATGCAGTTACATTGGAAAATTATCATCGGGTTAGTTGCTGGAGTCATTTTTGGCTTCTTCAGTTCAATAAACAATCTTGGAACTTTTTCAACAAACTATATTGCCCCTTTTGGTACAATCTTCCTGAACTTATTAAAATTAATTGCGGTCCCATTGGTAGTTTCATCTTTAATTACTGGGGTCGCTTCTCTTTCAGATACATCTAAATTATCTAGAATTGGACTAAAAACGATTTCTTTATATTTAATCACTACAGCTATCGCTGTGACTATTGGATTGGTTCTTGTCAATATCATTGAGCCTGGGAATTATGTTCCTGATTCTTATCAGGAATTTTTAAGTGAGGATTCTACATCTCAAGCTTTCGATAAAAAACAACAAGCAAGTAGTTTAAAAGAAAATCGAGGTCCTCTTCAACCATTGGTGGATATGGTTCCTTCTAACGCCTTTAATGCAATGTCCAACAATAGCAATATGTTACAAGTTGTCTTTTTTTCGATAATATTTGGGATAGCTATTATTGGAATAGATAAAAAGTTTTCTCAGCCAGTATTAAGCTTTCTTGAAGGTATTAATCAAACAATCATTCGATTGGTTGAATTAATTATGAATTTTGCACCTTTCGGTGTTTTTGCATTGATTGTAAAAACTTTTTCAATGATTTCAGGAGATTTAGCCTATATTACTGGAATTCTTCAAGCCTTACTCATTTATATGAGCGTAGTGATACTTGGCCTTTTATCTCATGTGATGATTACCTATACTACATTATTAAAATTTTTCAGCAATATTAAACTAAAAGATTTTTTCTCAAAGATGATCCCCGTTCAATTAGTCGCTTTTTCAACCAGTTCCAGTGGAGCTACGCTTCCAGTAACCATGAAAAGATGTGAAAAAGATTTAGGGGTTAGTGAAGAAATTTCATCATTTGTTTTACCATTAGGAGCA
>sequence34
CCGCTTAGCACTTTCTTTTAAAGTTAAATTTTCAGCTAGCGCTTTTTTTGCAATTTCTGCAGACTTCTCATACCCAATTACAGGCGCTAATGAAGTAACTAACATTAAAGATTTTTCCAAATTTTCTTTGATTTTATTCTCATTTGCTTTCAAATCTTTTAGAGCATTATCAGCAAAAGATTTGGATACATCGGACAATAGAGAGATTGACTCCTGAATAACAAACGCTATAATTGGTCTATAAGTATTTAATTCAAAATTTCCGTTAACTCCAGCATAATTAATTGTGACATCATTTCCCAATATTTGAGCATAAACCATATTAACAGATTCACATTGAGTCGGATTTACTTTGCCTGGCATTATAGAGCTCCCAGGCTCATTAGATGGCAAAATTAATTCGCCAATTCCAGCCATTGGACCACTTGCTAGCCATCTTATATCGTTGGCTATTTTATTTAAAGAACCTGCGCATATCTTAATTGATGAAGAAAGATTAGATAAAGCATTTTGAGAAGAAAGCAGTTCAAATTTATTATTTCCTACCTCAAAATCTAAGCCCAATTCCTCTGAAATAAAACTGACAGCTATTTCATCAAATCCTTCAAGGGTGTTGACTCCTGTGCCGACTGCAGTTCCGCCCAAAGGGAGGAATAAGCATTCTTGAATGGCTCTTTTTATACGATTAATATCATTCAAAATCATTGAATGATATCCTGAAAATTCTTGTCCAAGAGTAATAGGCGTAGCATCCATTAAATGAGTCCTTCCTACTTTAATAATCTTCGAAAAATCTTTAGATTTTTTTGAAAGAGTTTTTTCTAATAAATCTAATGCAGGAAGTAAGTGATCTTCGCAGGAAACAACTGCTCCAATTAAAGTCGCTGTCGGAAAAGTATCATTGGTGGATTGTGACATATTAACATGATCATTCGGATGAACGTATTGATAATCGCCTAATTTTCCGCCTAAAAGCAAATTTGCCTTATTAGCAATAACTTCATTTAAATTCATGTTAGTTTGAGTGCCGCTTCCTGTTTGAAAAACTGTAACTGGAAATTGATCAAGATATTTTTCGGGATGTTCTAAAATATCATCACATGATTTAATAATAGCTTCAGCAATATTTTTACTAATTCGTTTTTGAGCATAATTAGCTTTGGCACAAGCTTTTTTAATAATCACATAAGGAAGAATTAGGTTAAAGTCAAAAGGCCAACCTAATTGAAAATTTTCGATTGCTCTCTGTGTTTGCGCACCGTACAATGCATCAGAAGGAATTTCAATGTACCCTATTGAATCTTTTTCTTTTCTAGTCTTAGGCATTATTTGACTTCCCAGGTATCTCCTGCATTTAAAAGATCCTCCAATGATTTTTCACCTTGTTGTTTAGCTTTGGCCATCTGGTCTACCATTAAATCATCATAAGTTGGTCTCTCCTTACAATATAATACTCCGATTGGTTCCGGGAAAGTATCACTTGATGTAAAATTGGATAACATGTCACCAATAAACCTATCGCTCTCATCATGAATAAGAATGTCATTTACAGAAAATTCTTTTCCAACTTCAACCACACGTGGAGTTGTCCCATCTAGCCTAATTCCCTTATTTGAATCAGCTCCAAAAATCATTGGTTTTCCGTGTTCAACTGATAGAACACGATCAGATTTTGTAGTTTTATCTGTTAATTCAGAAAATGCTCCGTCATTAAAAATATTACAGTTTTGATAAATTTCTATAAACGATGTTCCTTGATGTTCGCTAGCTCTTTTAATCATAGTCTGCAAATGAAGTAATTCCCTGTCAATGGTTTTTGCAACGAAAGATGCTTGGGCACCAAGAGCTAACTTACTTGGATTAAAAGGATAGTCTATAGAGCCCATTGGAGTAGAATAAGTAATTTTACCCTGTTCAGATGTCGGAGAGTATTGGCCTTTTGTTAGTCCATAAATCCTATTGTTAAACAACATCACATTTAAATTAATATTTCTTCTAAGTAAATGGATCATATGATTTCCACCAATGGAAAATCCATCTCCATCTCCAGTAATTAACCAAACTGATAAGTCAGGATTAGTAATTTTCAATCCACTTGCAATGGTAGGAGCTCTTCCGTGAATAGTATGAAAACCGTACGTGTTCATATAGTAAGGGAAACGACTCGAGCATCCTATTCCTGAAATAAAAACTACTTTTTCTTTCTCTGTAGTAATTTCCGGGAAAATCTTTTGTGTTTGAGCCAGAATCGCATAATCACCACAACCAGGACACCATCTGATGGCCTGATCAGATTCAAAATCTGTTTTTTTAAGTATGGTATTTTCACTCATTTATTAACTCTTCTACTTTTTTGACTATTGTTGATGCACCGATTGGTTTACCTTTCATTTGATTCAACCCAACAGCATCTACCAAGTATTCACTTCTAATAATCTGCCTTAATTGACCAGAATTCACTTCTGGGATTAATACTTTTTTATAATTAGAAATAATTTTACCAAGGTCTGGAGGTAGTGGATTTATCCATCTTATAGATGCATGACCAACTTTCGCATTTTTCCCAATCAAAGTTTCGGTAGCTGAACGACACGCTCCATGAGTACTACCCCAACTAAGAATTAATAAATCACCTTTTTCTAGACCAAAAATTTTTGTTTCTTCAATTTCACTTGAAATCTTTTTGACTTTCTTGGCTCTTAAATCAATCATCAATTCATGGTTATCAGCATCGTAGCTAACATTACCTGAAATATTTTCTTTTTCTAGCCCACCAATTCGATGTTCTAATCCCTTAGTTCCTGGTATTGCCCATGGCCTTGCAAAAGTAGTCTCGTCTCTCATAAATGGGTTGAACTTTTCTCCATTAGAGCTTTCTTTTGCAAAAGAATATTTAAATTCTTTTAAATCGTCTGGATTGGGAATGAGCCAAGGTTCAGAGCCATTAACTAAATACCCATCCGTCAGTAAAATTACTGGGGTCATGTACTTCACAGCAATCCTACAAGCTTCGTAGGCTGTAAAATAACAATCTCCCGGGGTTAAAGCTGAAAGCACTGGAATTGGAGCCTCCCCATTTCTACCATACATTGCTTGCAATAAATCTGATTGTTCGGTTTTTGTTGGAAGACCTGTGCTGGGACCCCCTCTTTGAACATTAATAACTACCAGAGGAAGTTCTGTCATAACAGCAAGACCCAAAAATTCAGTTTTTAAGGCAATTCCTGGACCAGATGATGCGGTAACACCCAGAGCCCCTCCATATGAAGCTCCTAAGGCAGCACCAATACCAGCTATCTCATCTTCAGCCTGATAGGTTTTAATTCCAAAACTTTTCCAGTTAGACAAAGTATGCAATAAATTGCTTGCTGGAGTAATCGGATAACCTGCGAATGTCATAGGAAGACCACTTTTTTGAGAAGCGGTAAGTAATCCTAGACAGGAAGCAAGTGTTCCATTCATGTTTCGGTACTTACCTTTTGGTAACTCCGCTTTTTCAACAACGTATTTTGTAGTAAAAATTTCAGCCGTTTCTCCATAATTGTATCCAGAATTTAGCGCTCGAACATTGGCTTCAATAATTTCAGGTTTAGATTTAAATTTTTTATTCAACCAATCAACTGTGGGTTCTAAAGGACGGTCATACATCCAAAATAAAACACCTAAAGCACATAGATTTTTTGTTCGATCTATAATTTTTGGTGACAACTCCAAATCTGAACATGCAGCTGTAACTAACTTACTCATTTCAATGAAGTGGCATGTATAATAATCCAAAAGAGATCCATCTTCAGAGGGGTCGCTTTCATATCCTGCTAATGATAGGTTTTTTGTAGTAAATGCATTTTTATTAATGATTAAAGTTCCTCCTGGCTTCAGTTCTTTAAGATGAACTTTTAGAGCTGCAGGATTCATGGCAACTAAAACATCAGGATTTTCCCCGGGGGTATGAATTTCTTGGGAGCTAAAGTGTATTTGAAAAGAACTCACACCCGCCAAAGAACCAGCGGGAGCTCGTATTTCCGCGGGAAAATCTGGCAAAGTACTTAAATCATTTCCAACAATCGCAGAAGTTTGAGTAAACCTTCCTCCGCTTAATTGCATCCCGTCTCCAGAATCTCCAGCAAATCGAATCGTAACATGATCCAGTGTTTCTTTATAAATTTTTTTGCTCATTGATCAATTTTTGCGTCAAAATTTACATTCCGATTAGCTTCTTAGCAATCAGTATCAAATTCTTTTTAGCTTTATCATAATTTAAGATGAAAATCTATACTTTTTACTTCTTAATTGATTGGAGATTTCAAAGTAGATAAGTAACTTACCGCCAGAATGGAAAACATTAAAAAACAAGTAATTGAAGTTTTACAAGATTGTAATGATCCTGAGCTACCCATTGATCTTTGGAACTTGGGACTAATATATGACCTAAAAATTGCTGAAAATGAAAATAAAAAATTTGATGTTAGCATTATCATGTCTTTAACTACTCCAGGATGTTCCATGGGTGGATTTATGATGGATGAAATCAAAACTAAATTAAAAATGTTAGAAGCTATTAACCTGATTGATATTCAATTAACATTTGATCCTCCTTGGTCCCCTGAAATGTTGACAGAAGCTGGGAAAGAAAAGTTAGGAATTTAAATTGAGCGAAAAATTAAATAACGAAATTATATCTATTTCTGAAAAAGCCTCTAAAAGATTAAAAAGTATCTTTGAGGCTGAAAATTCAAATGGAATCAGAATCGCCATTGACACAGGTGGATGCTCTGGAATGTCATACAATATTACATTTGAATCTGAAAAAAAAGAGTTCGACAAAGTATTCGAGAGTCAAGGAATCAATATTTATTGTGATGTAAAAAGCTGGATATATGTTAGAGGTTGTGAGATAGATTTTTCTAATGATTTACTGAATGGAGGATTTAAAGTGAATAATCCCAACGCAAAAAGAACTTGCGGTTGTGGAATAAGCTTTTC
>sequence35
AGATCGATATCTTTTTGACGATAAGTTCTTTTTCCCGCACGATTTTTAGTAGGGTTTAAAGTTGGAAATTCTGACTCCCAATAGCGTAAAACATAGGGTTTTAAACCAGTCAACTTTCCTACTTCTTTAATGCTAAAATATAATTTTTCGAGTTTATTATCCATTCTAAACAATTTTATAGAAATATTTACTTAAAGTAAAACTTTAATTAAAAGGGATAAAAATAGATTTATTGATTAAATGGCAGGTCGTGTGCTTCAGCGACTTCTTTGTTGGTCAACTTACCTTGATAAGTATTGAGCGCCATCATTAAATGAGTATCAGTGATAAAATCAGAACCTAAAGAAGCTAATTTTAAAATAAAAGGAGAGGTTGCAATATTTAAAGCATTGGTTGCCGTAAAAGGAACTGCAGATGGTATATTCTTGACACAATAATGAATGATACCATCAACCTCATATGTGGGTTCAGCATGCGTTGTTGCATGAGAAGTTTCAAAACACCCACCTTGATCGATGGAAACATCAGATAAAATACTTTTTTCTGACATTAACTTAAGCATCTCTCTTGAAATGACCACGGGAGGCTTAGCGCCAGGTGTTAATACTGCACCAATAACAATATCGATAGTAGGCAACAGGCTAGAAATATACTCTTTTGAAGAAAGAGCGATATTGACAGCTGGGTAGCGTTGCTTGATAGAGTTCAACAATTCTTGATTCAAATCCAAAATGGTTGTATTGGCTCCTAAACCTAAACTCATTTGCATGGCATTTATTCCAACAATTCCAGCACCAATAATTAAAACATTAGCAGGATCAGCTAAAGAAGTACCTGCGATTAATTTTCCCTTCCCTCCTTTGCTTTTTTTTAATAACTCGATACTATCTAGTAAAGACAGTCTTCCAGCAATTTCAGACATAGGTTTTAACATGGGAGTTTCTTTGTTTATAATCACTGTTTCATAGGCAAAAGAAGTGGTTTTGCATTCTAATAATTTTTCAGTGAGTACTTTAGATGAGCTCAAATGAAGATAAGTAAAGAGCATTTTTTCACCAATCATTTCGACTTCTTCTAAAGAAGGTTCTTTTACTTTCATGATCAGATCGGCAATAGCAAAAACTTCAGCAGGAGTATTTAAGATAGTTACGCCTAATTCTGTGTACATTTCATTCGTATAGCCACTATCTAATCCAGCATTATGCTGTAAAAAAAGTTTATGACCAGCTTGAATTAATTTCTTTGCCGTATCAGGATTAACTGCTACACGAAATTCTTGTGAAACAATTTCCTTAGGAATTCCAATTTTCATGACTTAGGACTGAGGTTTTTCTTGAAGTAATTTAATACTAAAATTTAAACGACCTTGCTTGTCGATTTCATGGAGTTTTATCTTTACTTTATCACCTTTTTTCAAGACATCATCAACTTTATTGACTCGTTCCCATGCAATGTGAGAAATATGGACTAACCCTTCTCTTCCAGGAGCAAATTCAACAAATGCACCGAAATCCATAATTTTAGTAACAGTACCATCGAAAATACTGCCTACTTTAGGATCTTCAACAATGGCTTTAATTTTCGTAATAGCAATTTCTAACACATCTTTGCTTGGGCCTGCAACGCTGACCACTCCATCATCATCGATATTAACGACGCAACCAGACTGCTCCTGAATAGCCTTAATATTTTTACCGCCAGGACCAATCAATGCTCCAATTTTATCTTTATCAATGGTAAAGGATTCAATTTGAGGGGCATATGGGGATAATTCGTTAGGTTTATCGATTGCCTTATTCATTTCATCTAAGATATGCAATCTACCCTTTCTAGCTTGTTCTAGAGCGTTTTCAAGCACATCCATAGATAAACCAGGCACTTTTAAATCCAATTGTATAGCACTAATACCATCTCTAGTACCAGCAACTTTAAAATCCATATCTCCTAAAAAGTCTTCAGTTCCTAAAATATCACTTAAAACTGCATAGTCTTTTCCTTCAAGAATCAAACCCATAGCAATTCCAGCAACATGTTCTTTAATAGGCACTCCAGCATTCATAAGCGATAATGAACCGCCGCATACAGACGCCATCGAAGATGAACCGTTCGATTCGGTAATCTCAGAAACAATACGAATAGTGTAGGGAAATTCTTCCGAAGGAGGCAAAATGGGTTTTAAGGATCTTTCAGCTAAATGACCATGGCCAATTTCACGACGTCCAGTGAATCCAATTCTACCAGTTTCTCCAACTGAATAAGGCGGGAAATTATAATGTAATAGAAATGATTTTTTATAATCATCTGACATGGAATCTATAATTTGTTCATCTTTACTTGAACCTAAAGTCGTTACAGCAATTGCTTGAGTTTCACCGCGGGTGAATAATGCAGAACCGTGCACACGAGGAAGAATCGATGGAACAATAGTAATTGGACGTATTTCATCTAATTTTCTTCCATCAACTCTCGTTTTATTTTTTAAAACATTTTGACGAACCGTTGATTTAAACATTTCTTTGATAAATGCTTTGACGTGCTTTTGCGTCTCTTCCTCTTCTTCATAAGAAAGAACAGCTTCGTCCTCAATAGCATTGTAGGCATCATCTCGTTCTTGTTTAGTGTCTAAATCAAAAATACTATTGATACGTTCTTGATATTTCGAAGTAAGATCAGATTCAATATCTTTCGATAAAGTTTCTTTTTCAACCACTTGATAAGAATTATCAAAGGCATCAGCTAGTTCTAGTTGTAAGTCCACAATTTCGTTGATTCCATTCATAGCCACATTTAAAGCCTCAAGAATGATTTTCTCTGGAACAAAATTTGATCCACCTTCAATCATACAAATTTTATCTTTAACACCAGAGACTATCAAATCTAAATCGGAAGTCTTCATCTGTTCTGCGGTTGGATTTAAAATAAATTCTCCATCAATGTAACCAATCTTCACAGAAGCCAAAGGTTCAGAAAAAGGTACTGGAGACAATAATAATGCAGCTGATGCTCCTACTGCTGCAATCACATCCGGAGTGTTTTCAAAATCGTAGGACAAAGTTGTTAACATTACTTGTAACTCATGACTATAAGATTTGGGAATTAATGGACGAATTGGACGATCTGTCAAACGGGAAATTAAAACTTCCGCATCGGTTGGTTTTGCTTCTCGTTTAAAGAATCCTCCAGGTATTTTCCCTCCGGCATAATGTTTTTCACGATATTCGACTTGCATTGGTAGAAAGTCGATTCCTTCAAGTGGCTTCGCTGATGCACAAGCTGTGGCTAAAATTGAGGTATCACCATATTTGATAAGAACAGAACCACCTGCTTGACGAGCTATTTGACCAGACTCAATTCTCATGAGTCTTCCTGCGATTAATTTTTCAACAAAAATCATAGATACTTAAATACCACGGATTGCTAATTTATCTAACAATTCGCCGTAAGACTCCATATTGGTTTTACGTAAATATTTTAATAATTTTTTACGTTGAGCTACTAATTTGACTAAACCGTGTCTTGAGTGCACATCTTTTTTATTTACTTTACAGTGTTCAGTCAAACTCTTAATACGATCTGTTAACAATGCAACCTGTGATTCTGAACTCCCAACGTTGGTAGCATCTATACCAGCGTCTTTCAGTAATTCACTTATTTCTTTACTATACTTCATTTTACCTCTTAAAACTTCTATATTCTTCTAAACAATTCTACTTAATTTGACTCAGAGATACTTCATTGATATCGCTGACTTGCTTAAGAAATTGTACAAATATTTTCTTATCAAAATTGTGGTCCAATTTATCATTTATTCTTTGAAGTTCCATCATTATTTTTTTTTCCTTGTTTTCTACAATTTTCAGAACAGCTGGAAGTGTTAAATTATCCTTTAAAATCTCAATTAAATATACTCCACTATTAGGAAGAAGCTGCTTTGAACATACTGGATAATAACGATTCTCACTAGTGGATTCGATCCAAAAACCATAAGGTCTCCCCAACCATCGATTGACGTTTGTAAAATTAGATTTTTTAATCTCTGAACGAATTGAAGAACTTGAAACAACATTATCATCTATAACAAACATTTCTCTTTGAGAAAAATTAATCTGATGTAAAAGACAAAATTTCTTCATAGTTGAAACGGTCCCCTCTTTTTTGTATCCAAAAGTATGATTCTCACCAATAACAACGGAAGAAGGGTTAATTTGATTAAGAATAATTTCTTGTAAAAATTGATCAGCTGACATTTTCGAAAATCGTTGATCAAAGGTCATTTCAATTACATAATTTAGGCCAAATTCTTCTAATAATTGATATTTTAGGGGATTATCTGTTAAGGTTGAGGATTCAGTATCACCAAAAAAATATCGAGGATTCGGATCAAAAGTTAATAACAATGAAGCTTTATTCTCCACATGAGCTTCGGACACTAGTTGCTCAATTAATAAGCGATGTCCTCTATGAATACCATCGAAATTTCCAATTGTTAAATGGCATCCCTTGAAATTTTTTTGATTTAACGATTTAATGATTTCCATAGTTCCTCAAATTTATCAATAGTCATTGAATCTTTTAAAGAATATTCGCCGATCGAAGTTCTCGTTAAATGGGTTAAATGACCCACTGTACCCAACTTATCAGCCAAGTCTTCAGCTAAAACACGTATATAAGTCCCTGAAGAACATGTAACATTCATTTCAATGATGTCGTGACTGATTGAACAATCTAAATCGAAAATAGTAACCATCTTTGGATTGGTTTTAATTTCAATAGATTTTCTAGCCAATTTATACAAACGTACTCCATCAATTTTTCGAGCAGAAAACATAGGAGTTCGTTGAAGTTGCTCTCCAATAAATTCTTTCGTTTGTTTTTTTAGGACTTCTTG
>sequence36
AACTTAGCACCTCTGGAGAAATAAAAAGATGATCTATCATACAAATCTTCAAGGCCTATGGTTCGTTGTTCTTGTTTAGCAGAATCTAAAGATGTCAACCCTAAGTCCACCTTGATTCCAGGTAAAATATTTTTTGATGACAAAAATTCTGGATACAATTGACCTGAAGAAAGATCTTTCTGATTGAAAGTTTCATCGAATAAAATGATACCACTAATATAGTTTTCTAATTCAGGAGAATTAAAAAGCATGTCTCTATATTGATTTCTAGTTAATGCATTAGATTCAAGATTAATAGAATCAAATCTCTTTTTGCATGTAGGAGTACTCTCATCAGCAGCAAGGATACCTTTTCCAGACTGAACCATTTGATTAGCTATTTTTTCAAGACTCATAAGTTAATATTCTCTTTCAATAAGATTAATCTCTGATGAATTACCAAAAATAATTTTGGAAAAAACTTTAATAGAATTTTTATTGAATTTAACACCAGGAACCCACCCATCGCAAACACCTGTTGCTATAAAAAAATAATCTTCTCCTTTACAAAGTTCATTTTCAGACCAAATTTTATCAATTTGATTACCCAGCATTTTTTTTGATCGATTAAGAAAAGATTGATTGTCAAAAATAAGCTTTCCTAAGAAAAATCCACCCAATGCTTTAACAGCAGCTGCTGTAATAACTCCTTCTGGGGCAGCTCCAATTCCATACAGTAAATCAACCTTTCCTTCCGCCGCTTCAATTCCGGCTGAAACATCACCATCAGATATTAAAATTGGTGTTGAGCCAAAATCTTTAACTTCTTTTATCAGTTTATCATGTCTTTCTCTATCAAGAATGACTATCTTCAAGTCCTCAGGATTTTTCTTTAAAACCTCACAAGTGATTGAAAGATTTTTTTTAACAGAATGATTGATTGATAAATGATTTTTTAAGGATTTCTGACCACAAATTTTCATCATGTAAGTATCCGGAGCATTGAGAAGAGTGTTTTCTCCAGAAATAACTAACACTGTCATAGAATTAGGTAAATTATTTGCACAATTAGTTGTACACTCTAATGGATCGACTGCAAGTTCTAGTTTCATCCCAGATTTATTTTTACCAAGAATTTCGCCGATGAAAAGCATCGGAGCATCATCTCTTTCACCTTCTCCAATCACAACCTTAGTTGAGTGCTGATTTAAATTAAGTGCATTCCTCAAAGAATCAGTTGCAAGTTTATCCGCTAACTTTCCATCTCCCTTGCCTCTAACAGTTGCAGCAGAAATAGCTGCTTTTTCCGAAGCAATTAAAAAATCTTTATAATTAGAAATAACACTATTAATCATTCAATGAGTCAATTAATTTAAAAAATTCTTTAATTGTTTCTGGCTTGGAATACCCTTGAAAATATCCCTGAACAATACCTTCTTTATCCAGTACATAGATATAGCAATCGGATTTATCATTGATTCCTAAGCTTTTATAGTACTTTTTAAGGGGGCCATAATATGTTACTGTAAAGTCATGCAACGGCTTTGGAACGCCTCCCCTCATACCTCCATCAATCCAATTCCGAGCCATTTTCCATTGAGCTCCTAACATTGGTATTTCATAATATAATACAGACTGATTTAGACCATAATTTTTCAAAAATTCATCTGCCCAACTATTAATACAATACTGAGCTTGCTGTTTGAATGCCACTGATAAAACAGAGACTCGATTATTTAAGTCATCAGGAAAAGTAACACTTTTCTCAGAAAGCGATATTCCTTTTATCGTTGGAAATTTTACTCCAACTGGATTACTAGAAGCATTTAATATGCTAAATAACATGACTAGAAAATAAAACTTTTTCATGATTTTCCTCTATTGATTAAATACATTGGTAAATAAAGAAATAAAAATACTATGAATCCAATTATAATCGAAGGGAATATATGCAATGGTGGATTTTGAAAAATCGCTGGGAAAAAATCCATAATTGATGCTCCTCCAGGAGGACTGACCAAATACCATAAATTGGATTGATAATTTGGATCTGCAAAGATATTAACAACAAGATTGATTATGTAAATAAAAGGTAACATCATAAAGGCATATTTCCATGCATTTAACAAAGAATGAAAAGTTATTAATGGTTTGTAAATTTTTAAAATATATATAATTCCAAAAAATAAAAGACCGTGACCAAAGAATAATGAAATAAAATCAATATGTGGAAATCCAAATTCAACATCAGGTGTTAATAAAGCCATACAGCCTCCTCCTAGTCCCCAAAAATATGCAAAATCAAAGAACTTTTTATTTTTAGTGATTAAATACAGACCTGTCGCATACGACGAGATATGACATAAATGAAGCGGAATAGTGTTTGACCATTTAAAATCTCCCAAAAATGTTAAATAAAATGGTTTGAATAATTCATTACTAATTAATAAAACAGCCAGACCTTTAGTGAATGTATTTATTCCATTTTTAGTTAATGATTTTTTTAATAAACCAGGTAAAAATAATGATGATAAAACAATTATTAATAATGTCTTAACATGCATTGGGCCAAATAAAATAAATGGACTCATAGTTTTAATCTAGTTGTTTTTATGTTAAATAATCAAATAATCTCAAACAGAAACCCTAATAAAATAATCATCAGCAAAGAGCGAAGTACCCATAAAAGCATACGAAAAAAGTTGAAAAAAAGAAGTCTATTCAAAGATAAATCATCAAGAGCTTTTGAAAGTTGATTATGGATGGGAACTATTCCTAAAAAAGTCAGGGCCCATATTGATACAACGAGAATTAAATTAATCAGAAAAACTACACTTATCATATTATCCTGATTGTTAAGGTAAAGAATCCATGAAGAGACTAATTCTATTAACATTAACGGAATGACGACGAAAGAAATTCTTTTAGAGTGGAAATGATGGAATTCTTCAAACTGTCTTTTTGAAATATATTGGAATGATGGATAGTGCACAAATTGAATAGTAAGGATTAGGCCAGTTAAAATAAATGCAGAGACTATGTTTAATAACAAAATATACGTCATCGAACATAGCTACCAGCATTGATATCAATGTTGGATCCTGTTCCATGATCAAAACCACCAGAACAAATCAGTGCTATGATAGGTGCAATATCTTTGGGTTCAGTCAATTCTGTCAGAGCAATATCTTTCACAACAAAATCTTCTCCATATTTATCTATTGATTTTTGAGCCATCGCCGTTCTGGTAAAGCCTGGAGCAATAGAAAAAGCTTTTATTCCCTCTTTCCCAAAATTTCTAGCGACCGATCGAATGATTGCCACCATGCCTGCTTTAGATGCTGCATAGGCTAGATAATCTTTAGTGTCTCCTCTAAAAGCTGCTCTTGATGCGATATTGATGATTCTACCTGCTTGATTATCTATAAAATGCGGTAAAGACTTTTTAATTAATAAGCTTGAAGAAAGCAAATTAATGTTCATTATCTTTTCCCAATTATCAATCCATGTTTTGTCATCAAGAGAAATATCATTCATAATTGATGTCCCTGCGTTGTTTATTAAAACATCAATCCTTCCCAATTCTTGCACAGAAAAATTAAAAAAATCAATGGTTTGATTTAAGACATTAAAGTCTGCTTGAAAAGTTTTGACTTGGTTTGGGTATTGATTTTTTAATTTATCAACTCCACTAGAATTTTTATTATAATGAAGAATTAATTTGGCGCCAGATTCTAAAAGTAATTCAGCAGTTGCAAAACCAATTCCACTATTCGCTCCAGTTAAAATGATATTGGTGTTATTAAGTTCAATTTCCATTAGTGACAACTTGCATTATATTTTTTCAATCTCCAATAATTATATGGCCAAGGAGTGATAAAACCTACAATTAACATCAGTGGGACTGCATACCATACAATCATAGCGCCTCCAGTAAGAAAATAATCTGTCAAGTTCATTGCTAACTCCATGGCTATCATTGATATAAATGACATTCCAAAAGCAGTTTTTAAAGCTTCTGTAAAGTTCATCTGCTTTGATAAGATATAAGTTTCCAACATAATACTAGTGGCTAATCCATTGATCATAGCAAGCAACATAACTTGCCACACCATCCAAGAGTGTTCAATTATTTGAAAAACATAGATTGTAGAAAAATCACCTATAGAGCAACCTAGCAAACACCAAGCAGTGTTTACAGCTGATTTTTTCCAAGTATGCTTACATTTCCAGTTCATAATTCTATAGTTTTTTTTAAAAATTAATTTTATTATAAGAAAGTTTAACTTATACAGGTAATAATATGAAAAAAATTTTAGGTATACTTGTTTTTATTTCAATCACTTTCTCACAAGATGTTTCTGAAAACTCTTATTTAATGGGTGGACAAATTGGTTCTGGAAGCTTTTGGGTAGGAAGTGAAATACTTCAATATGATGTAGTTGGTGGAAATGCACCTGAAAATGTACAAGGAGATCCTACTTTTACCTTAAAACCTGAACTTGGTTTTTTCTTTAGAAATAATTTAGCTTTCTATGCCAAATATTATAAGGAGAATGGCCTTGGTACTGAATATGGTCTAGGCCTAATGTATACCATGCCAGATTTTTACATCAATGGAGTTTTCAAAAATAAAGATGCTGATGATCAACACATTCAAGGTACGATTGGTAAACTTTTTCAATTGGAGACATCTCCGGCTTATTTAACTGTAGGTCTTAACTATAGTCTATATTCTGAAGATCAAGAAAAGCAACTTCAACTATTGATTAAAGGGTTGTATGTTGGTTTTGGAATGACTTTTTAATTTTTAAGTCATCAGATTATTTAAAGTTGCATCGT
>sequence37
AACAATCAAGAGGTATTAGTCATGCCGAATGAAGCTGTTGTGGAAGTGTTTGGAATGGTTTGTTCTTTTTGTGCTTATGGGTTGGAAAAAAATCTATCAAATCTAGATAAGATTAATTCTAAAAAATATACTAATGGAGTTTATGTAGATATTGATAATCAATATCTGAAAATTGCTTTTCAACCAAAATCACAGATTGATTATAAAAAAATTCATTCGTTGATCATTGATGCAGGTTTTACCCCAAATGTCATTTATTCAATAGAAAAGAATGAATTAAGTCAACATACAATTGATAAAACAGGAAATATGAAATCAATGAAGCATATGCATAAACATGACCATGGAGATTCTCATGACCATGATAGTATGTAATATCCAAAATGTTCAATAAAAAACTTTTTTTAGCCTTTCTATTTTGTAGTTATTTATTTTCTCACCCAGTCATTTTTAAGGGAGGGAAAGTTTTCTGGATTACTCAACAACCCAACTCTTTTGATTTTCGATTTGGGAAATCTCTTTCTGCCAATTGGCTTGTAGGGGGTCGTTTTTATGAAGATAAGTCTACCAATGAATCTTTTGGTTTAATTAATAATAACTACTTATTAAAGAGATGGAATGCCCCTAATTCCCAAGCGAATCTCTATCTCTTGTCAAGCATTGGATCTGAGATTGAAACTTCTAAAACATTAGCTTCATTAGGAATACATGCGGATTGGGAAGATAGAAGATTTATGACAATGCAAATGGCTGAATATTACTCTCATTCAAGTATGTGGATGTTGGACACCCGTTTAGCAATCAGTCCTTATTTAGTTGATTATACCAAAATGTCTACTTGGTTGATTGCGCATTATAAAATTTCTATTAAAGATGGAAAACAAACTTCCGAACTATTACCAATCATTCGACTATTCAAGTCCAATTACTTAATTGAATTTGGAGCTAATAAAGATAATGATACTTTTTTATCTTTTATGCTGCATTTTTAATAACGTTTCTTAATCAATTTTAATGCTTTTCTATTGTATATTTATTCATGAAAAGAACAGCTATAGTTGCTTTAGGTGGAAATGCTCTATCCAATAAAAAGCAAGCAGGTACTATTGAAGATCAATTCGATAATACTAGAAAATCACTATCGCAGATTGCCAAGTTTTTACAGTTAGATTATAATCTTTGTCTAACGCATGGTAACGGTCCTCAAGTAGGTGATGAATTACTTAGAATGGACCTTACTAAAGAAACAGTTCCGCCGTTACCGCTTGGGGTTTGTGTTGCTGGTACCCAAGGAACGATTGGATATATGATCCAGCAAACCTTTCAGAATATTCTTTCTCAAAAAAATATTAATCGAGAAGTTGTTACATTGGTAACACAGGTGATGGTTGATGCTAATAGTCCAGCTATCAAAAATCCCACAAAGTTTGTTGGAAAAAGATATACGGATGATGAAGCAGAAATTATGTCAGATTCTATGGGGTGGATCATGAAAGAGCAAGAGCCTGGCTATTGGAGAAGAGTTGTACCTTCGCCTGATCCTGAATTTGTCATGCATGGACTGAGTATTCGAACATTAGTTCAATCGGGAAGTATCGTTATTGCAGCAGGAGGAGGTGGTATACCTGCTTTTATTTCAAAAGATGGACAGCTTGAAGGTTTAGATGCTGTCATTGATAAGGATTTAACTGCTGCGAAATTGGGAAGAGTAATCCGAGCCAACGAATACTATATTATTACTGATATTGAAAATGTCTATCTAAATTTTGGACAGCCCAATGAAAAACCGATCTATAGAATGACTGATGATGAAGCAAAACAATATCAAGCGGAAGGTCATTTTCAAACTGGAAGTATGGCTCCTAAAATTCGATCAGCAATTTATTTCCTTAAACATCATGGAGAAAAAGTGATTATTACTAATATTAATAATCTTAGCAAAGCGATTGATGGACAAGCTGGAACAGTTATTTACAAAAATGATAAAATATAATCATTGAAGAAAAATTAAGCTTTCTTCGAGATTTCCATCATTGACTGATGATTGGATATTCATTATAGAACACATCATTTCATAAAGATGAATATTTTTGATTCGTGGACCGACAAACCCTTTCTTAAAATCTGGTCCTGTTCCAATGAAAATTCCATGCATGTCAGTAGCAGTGGGGCTATATCCATGATCTCCACCACGTAAATTCCCTTTAAATTGAGAACGATCTTTAATGATAGTCCAATGATTTGATGCAATCAGAGTTAAATCTTGAATTCTTGGGTTATCCGTTAAATGGTATTCTGATGGAAAACCATAGCGTTTATAGACTTCTAATTCAGGATGAACTTGATAGAGACTTTGATAGATGGATTCTGTTTCGTTATCATCAATCACATCCAGTTGTGCAAAAGGTCCAGTTTCAATGATATTTAACTTAGTTAAATCAACATAATCATTCAAAAAAATAACCGAATCAGACGAAGTAGCTGCCATTCCATGATCTGAAACAATTATTATATTTGTTTCTTCAAGAATACCTCTTGCTTCTAAGCCATCAAGAAGTATTCCAATGTTTTCATCAGCCTCAATGATTGAATCTATCACTTCTGGTGAATCAGGACCATAACGATGACCAGCATTATCAACAATGCTCATGTAGGTTGATAAAAAAGTTGGTCGATTACTTCCTTCAAGATCAAGCCAAGAAAGAATTTTTTCCATTCGTTGAGGATTGGTGATGGATTCATCGTAGACATACCACTCAGATGGTCTAATACCCATAATTTCTGCATCTGAAGTAGGCCAAAACATCGTCATTGCTCTTAGGTCTTGTTTCTCAACTGTTACCCAAATTGGTTCACGATTTAACCATTTTCCATCTTGAGCTGCAGTACTTCCTTGACCAATGAAATAGCGTTCTTTAAAAATTGGATCATACATTTTATTTGAAATAATTCCATGATTATTAGGGTGTGATCCTGTGACGATACTTAGGTGATTCGGAAAAGTTTTGCTTAAATAAGAAGGAATGAGTCCTTCAGCGCGTACTCCATTCTCAATAATTCTGTCAAAATTAGGCGTATCAGTTTTTTCAAAATAATCCCATCGAAAGCCGTCAATAGAAATCAAAATGATTGGAGTTCTTGACTCTAAATAGCGAGACTGCACTTCAATGTTTTGATTAAGACTAATAGCGTTTTGATTACAACTAATGAAAAAGAATAGGGATGTAAGTATAATGCAGTTAAAGATTTTCATGCAAAAATTTACAACAGAAAAAAATATTTTGAAGAAAAAAAGGCTGGATTTACCAGCCTTTTTTTATTGGTACTAATTTTTATTAGCAGGTTCGAAATTTCTCCATAGACCTAAATCATCATGATATTCGGTTAATGGATGAAAGTAGCCATTATAACGACTTCTTTCTTCTTGAGAAAATGCTGCTTCTACATAAGGTGCGTTATCAACATTATCTGCATCTCCAATTGAAGCATACTCGGTAATGTAATAAACTGGAACTCTTCCACCTTCGATGGAATCTGACCATAAATGTGTTAAGACTTTTTGACTTAAGATTTTTGGATTCTTTTTAACAACTTCATTTGCAAATTTCTTGAGTAAATCTAGTCTTTCATCGGCTGATCCATTTTCAATTGATCCGAGGCTTTTAAAATAGCGAACGCTAACCACTACTACTGGTCCTGACACCAGTGTTTCTTCTCCAGTTAACGTAATTTTGCGCTTTTTCTCAAGAGCGGTCCAATTTTCAAAAATATGAACATCTTCATGATAACTTTGAAAATGTCTATTATAGTTTCTTACTGCAGTTGTTCTTTCATCCTGATTTCTCCATGCCATCTGATTAAGATTATTCACTCCCGCATAATCTGTAGCATCACCCATATTGCGAAATTCTCCTAAAAGATGAACATCTTGAACGCTTCCTGTCCAGTAATGAGTTAACATCATCGAACTTAACAAATTACGTGCCACTGGATTTCTTTTAGAGTGAAATTCAGTCACATCATTTACGCGATCTGTCCAAGTTGCTCCTTCAATTTCAGACATAGGATTCCATTTATATTTTGACCAAGTAACAACCGTATTTCCTTGATTATATTGTGCAAAAATAAATGAAAAAAGAACGGATAAGATAATTAGTCTTTTCATTTTTTCTCCTTGATTAGATTTAAGTAAATTAAATTGAAAGTATAGTAAATATTTTTTAAAAAATATGATACAAAAAAAACAAAATAATTTAGCTATTTCTCAAGAATTCTGGAAAAAAGAAGGGAAGCGAATCGATTGGTTTACTGAATATTCTAAAGTAAATGAAAGCAATTTTTCTCAAGGCCATATTGAATGGTTTTCAGATGGAATTTTGAATGCGTCCTATAATTGTATAGATCGACATATTTTACAAGGAAATGGAAATCGCACTGCCCTTATTTGGCAATCCAACGAT
>sequence38
GGGTGATTTAGATAATTGATATTTTGATTTTCACTCATATTTAACCTTGTAATTTACAATTAATTTTATTCCTATTTGTCATTTAGTGATTTTAAAAAAGCAATTAATGCATCGAGCTCTCTATCTGATAACAGACCTTGATAGGTAGGCATTACACCTTGATAACCTGCTACTATTTGACTTTGAGGCTCTAAAATTGATTTTCTTATATAGTTTTCATCAATGACTGCTGATGAACCATCTTCAAAGTTTCTAGTTTGACCCCACATACGACTAGTTTCCAGGTATGAAGGACCAACTAAATCAGAACCATCTAGAGTGTGACATGTATTACATGCTTTCTTGGTATATAGTTTTTCACCTAATTCATCTAATGGAAGATCATCATCACCGGAACCAAGTTCCTTGACCCATTCTTCATACTGTTTTGGCTTCATAACAATCACCTTAGCTGCCATCTGAGAATGAGCAGTCCCACAATATTCAGTACAAAAAATATCATAAACTCCCTCTTCTTGGGCTTCGAACCACATAATATTATATCGATTGGGTAATGCATCCATTTTTGTTCTCATTACTGGAATAAAGAAACTATGGAGTACATCTTTTGATGATAAAAGAATTTTTATTGGAGTATTAGAAGGCACTACTAATTCATTCAAAGAAGTTCCACCTTCAGGGTAATCAAATGTCCAAAACCAGCTCTGGCCGGTAACTTTTATTTCAATGGCATCATCTGGAACGATTATCATTTTTAAATATGATCTAATACCCCAAACAAAAGTAATTGATACTAAAATTAGAGGGATAATAAAAAATAGCGACTCAAGAATATTATCATGATCTTTGCTACTGGTTAATCGAACTTTATCCCCTTTTTTAAAGCGATATTTTATAGAAAAAACAACCATTCCAATGACAACTATGGCCATTAAAACTACTGAAGAATAAAAAATAAAATAAAAAAGGTTGTCGATATCACTGGCAAATGTTGAAACTTGCTTCGGGAAAAAAAATTCGTTTAGTCTATCAATCATTTTTTCTTTCAATTAAAGTATCATTTTTCCAAAGTTTTACTAACATTATTGCTAGGAAAATGATAGTGAATATACCTCCTAAACGCATAAAATTGGTAGCAAAAAGTGTATAAGTATTTTTGTAAGGGTCGTAATGATAGCAGTACAAAAGGATTTTATCTACAGTAGATCCAATTTTACCCTGTCCAGTCTCTAATATTGCTAGCTTAAAATCTAAACTAGGATAAACGATACCATATAGATACCTAGTAATTTTTGATCCAGAATCAACAAATGTAATTACAGCAGGATGCATATACTCATCTCTATTTGAATCATAGTAGTATTCGATGCCTAAAATATCTGCGAGTAACGTAATATTTTGATTAGTCCCTTTTAAAAAATACCAAGAATTATCATCTATATTATCATTAAGAGTACTTAAGTAATTTTCTTTCTTTTCTTGAATTAAATTAAGTGGTTCATTAGGATTAAGATCTACTGTAATAACCTGAAAATCTTTTCCAAGCATTAAATCGCTATTCTTGATTGCATCAGAAAGTCCATTAAGAACCAAAGTGCAAAGCATGGGACATTCAAAATAATTTAAAGTAATAATTGTGGGGATACCATTATCTATTATATCTCCTATTGTTATTAGAGAGCCATCGGAATTAATGAATTCTAAGTTTAAAGGAATATTGTTGCCCAGCTTCTCAATAACATTGATAGGTTGTTCGCTAGGAAATTCTTTTTTTACTGTTTGTGTAAATAAAAAAGAAACAAATAAAATTATCAGATAAGATAATCTATTTTGAAGCTTCATTAATTAATAATTCTTTTGAGCGCTCAATTGGAATTTGATAGACTCCATTCTCTTCATCAATAATTTTATATGATGATAAAGTTTCTTTTTCTGATTCTCTAAGTTCAATTAATTTTTTGGATCTTTTGCTAAGTTTAAAATCATAGACAGAATTATCCATAACTCGAACATAATATTCAAAAAGTAAAAAGAGGGTTACAGCTACGATTAAAATGAAGGAAATACCGCCAATTACCAAAGGTTTGACTGGTATATCTCTTTTTTCATATCCATTATTTTCCATTAGTGATTCCTATGATTTATTGAATTTATTAATTCAGGGTCATTTACTGGAATCAAAGGATTTTGTGAAAGTCTATTTCTAAAAGAAGAAATAAATACCAATCCTATTCCAGATAAAACTAACAAATCGTAAATACCAAAATGAAAATCGTGATGATGATAAGTTGGCATTATGATAAAATTAATATCGATATAATGCATAAAGATTATCCACAATGACATATATTTTAAAAGTCCAAGATTTCTTTTCGATGCTCTAAAAATTAAAGAAAAGAATGGTATAAAGAACTTTCCAACAATAAGAAGGATACTAATAATTTTCCAAGAACCAACCCATCTATGCAAGTACCAAATTGTTTCTTCAGGAATATTACTATACCAAATAAAGTAAAATTGGGCTCCAGCTATATAGCAATAAAAAACTGTGAAAGCGAACAAGTACTTTCCTAAATCGTGGTAATGTTCAGAGGTAACAATATTCTTTAAATAACCCTTACTTTGTAAATGAATGATGGTAAAAGTTAAAAATGCTAAGAAGGCTAGAAAAGAACCAGCAAAAGTATAAACTCCAAACATCGTAGAATACCAGTGAGGATCTAAGCTCATTTGCCAATCAAAACCTGCGAATGTTAATGATAAAAAGAAAAGAACTCCAAGCGGGCTCATTGAAAATAATCTTAATTTATCTAGATCACTATTGTTAGCAATAGAGTCATTTTTAATTGATTTTTTATAAATATAAACAGCAATAAAATTCCATAATAAAAAGTAAAGTGCCGCTCTTACTAAAAAGAATTCCTGATTTAAAAATGATAATTTATGCTGTATTAAATGATCTGCTTCAAAGCTTCCAGGAATACTCCATTTTGGATTTGTAGGCATCCAAGAAAAAAGGCTTTCCATTCCAATCAATATCGGAATAAATAATATTGTCATAATTGGAATAACAATAATGGTGTTTTCCATGATTCTTCTGATTGAAACACTCCATACAGCTGAAAAAGCATAATGGACTAAAGTAAAGAAAATTCCACCTAAAGCAATGCTTAACCAAAAGAAATAAGAGGTTAAATAGGAAAAGTAAAATTCTTGATGTTTGTAACCCATTAATACTGAGACTAAAATTAAAATTATACCTAAGAAAAAAATCTGTCTATTGCGGTTATTATCAATAGTATATGTATAGTTTTTTGGGTCGATATTCATTTCTAATTACCTAATTGATTTAATTCTTCCTTTGTTAACAAATCTACAGAAGTATTTTGACTTTTTTGTAAAGCCCTTACATAATGTATTATAGACCATACATCCTCATTTTTAATTTGATATCCATAGGCTGGCATACTTCTCAAACCATAGACAATTGTATTAAAAATTTCTCCATCAGGAAGCCCTTGTATTCTTTCATCATGAAGATTTGCTGGGATTACAGGATAATCGTATTGAGTAATGATGCCTTTTCCATTTCCAACTTGTGAATGACAAACGCTACAATAAATGTTGTATCTTTCTTGTCCGCGATTTAAGACCTCTATAGATATAGACAGAGGATTTTCTGCAACAAAAGACCCATCTTCATTCTTTCCAGAAGAGAAAGTAATATCACTAGAGTACTCTCCTAATGCAATAGTTCCCTCAATTGGCTTACGCATGGTAGAACCATCTTCAAAAAAATAACTTTCTTCTAGTGACCTGTATTTTTGTTGATTATCCATATTCGGATTTAAATGGATAGGGGGATTTTCAAATTTAGATCCTCTAAAACATCCTACCAATACAAAAATGCTAAGAAAAATTATACTAATTCTCATCACTTAAAACCTCTATGTCTGTTCCACCAATTTCTTTTAAATAAGATTTAGTTTTATTTTCATCAAAGATTGGATCAGTCAATTCAATACTGATATAAAACGCATCGCTTGAAACATCAGAAAACTTATCCGAATAAAAAACAGGGTGATTAAATCGTGGAATTTTATTTAAAAACATCATTCCAAACACTGCACCAAAAGCACTAAATAAAACCATAAGCTCAAAAGTAATAATTAAGTATGCAGGATATGCAAAATAAGGTTTACCACTTATATTCAAAGGATATTCAACAAGATGTACCCATGTTTGTAAACCAAATCCAAACAAAGCACCTGTAAGACCCATTGCGCCAATGATAAAGCCTAGTTTTGATCTTTTTAATCCCATTGCTTCATCCATGCCATGAATCGGAAAAGGAGAATGGCAGTCAAAATTTGTAAAACCGCTATCTCTTACTTTTTCAGCAGCATGTAACAACGCTGAAGGAGATTCAAATTTTGCTATGACA
>sequence39
TATGCATGTTATAATTGGTTTAGTTTGTGCATTGTTGGTTGGATTAGTGATTATTGGTGGAATAAAAAGAATTGGGAATGTCACTGGTTATTTGGTTCCAATTATGGCAACAATCTATGTTTTTGCAGCCTTATTTATCATCCTAACTAATTTTTCTGACGTGGGAGAGTCATTTGGATATATTTTTGATATGGCGTTTAATCCTCCTTCCTTGAAAGAGCCTGCTATTGGAGTAGCTTCTGGTGCAGTGATTGCGTTTTTAAATACCATGATGATGGGAGTAAAACGCGGATTATTTTCTAGTGAATCTGGTCAGGGTTCAGCGGCAATTGCTCATTCTACTGCCAAAACTAATTATTCTGTTCGTGAAGGTGTAGTCGCCTTATTAGAACCTTACATTGATACAATTATTATCTGTTCTTTAACTGGATTAGTGATTATGGTTACCGATTCCTGGCATTTTACAGAATTCTATGCTCAACGCATTGATACTTCTGTGACAGAAATGAAAGAAGGCGTTTTATTAACCAGCTATGCTTTTTCTCAAGGCATTCCATTTGGTAATTTCTTAGTAACTATAGCTGTTGTTCTATTTGCCTTATCGACTGCTATCAGTTGGTCTTTTTATGGAGATCGTGCCACCGAATATCTTTTTGGTACCAAAGCGATCAGTTACTACCGATACCTTTACGTCTTCATGTTTTTTGTTGGTTCTATTTTAACATTAGAACAAGTTTGGATGTTTGGTGACGCCGCTTTAGCGTTTATGACTTTCCCAAACCTATTAGCATTAATCTTGCTTAGTTCAAAATTGAAAACGCTTTCAGCGAATTATTTTGAAAAGTTTGATTAAGCCAACGAATTTCTAATCCGTTAGCTTAATAAGATTTAGAATCCCATTTAAGGGTTATTTTGCTTCATTTTATAACCAATCGCCTCAACATCTGTATTGGGAATTTTTCCTTTTTTTTCTTCGACAATTTGAAATCCAAATGACTGATATAAATTAATAGCACGTATATTGTTATTTAGGACAGTTACTTTTGCAGGTTCATCTAGCTTTTTTAGCACAAAACTTAGAAGTTGTTTACCGTAACCTTTTCGAAATTGACTTTTTTTAATATATAACCAAGTAATCTCATTCTTATTATATGCTACAAAACCAATAATTTTTTGATCTACTTCTCCAACATAAATAGATGATTGAAAAAGTTCTTCATCTTGATAACAGTCTTTTAATGGAATAAAAGCATTAATGGATGCAGAGCCTTTTAACTCAACCAGTCTGGAGATGTCATGAATGTGACAAATCTTTTTCCAGTCTGAATCATGAGAATATTCTCTTATTGTTAACATCAAATACTTTACTAATCAGAGGATGGATTATTAAAGTCTAAACTTAAAGTTGTTTTTAGAGACCTAAATATCCTTTAACGTCTTTAAGAACTGCTTTCATAAGCTTATCATCTGTCTCAAGCAAAATCTTCACTTTTTCTCTACCCTGAGCAATTTTCTCATCTTTGTAAGAGAACCATGAACCCATTTTCTCGATAATTTCTCCTTGAAGCGCTAAATCAAGCAAGTCTCCTGCGTAAGAAATACCTTTTCCATACATAATATCAAATTCAGTGACCTTGAATGGAGGAGCAACTTTATTCTTAACCACCTTTACTCTAGTACGATTACCAGTCATATCAGAACCTTCCTTAATCGCAGCAATTCTTCGAATATCTAAACGAACGGAAGAATAGAATTTTAAGGCTCGACCCCCTGGAGTAGTTTCTGGACTACCAAACATCACACCAATTTTTTCTCTGATTTGATTGATAAAAATCACACAAGTTTTTGATTTACTGATAGGCCCAGAAAGCTTTCGAAGGGCTTGAGACATAAGTCTAGCTTGTAATCCTACTGTGACATCACCAATTTGTCCATCTAACTCTGCTTTAGGTACTAAAGCGGCGACTGAATCGATTACAATAACATCTAACGCTGCAGTTTCCAGTAAACGTTGGAGAATATCCAATGCTTGCTCTCCTGAGTCTGGTTGAGAAATCAATAAGTCGGCAGCATTACAACCAAGGTTTTTGGCATATTCAGGGTCTAAAGCATTTTCAGCGTCAATAAAAGCGGCTTTTCCCCCCTTTTTTTGACACTCGGCAACTACATGTAATGCTAAGGTAGTTTTTCCAGAGGATTCCGGGCCAAAAACTTCAACAATTCTTCCTTTAGGAACTCCACCAATTCCTAAAGCCATATCTAAAGATAAACAACCAGTAGAAATCGCTTCGACATTCAATTTAGTGGTTCCACCCAATCGCATGATTGAGCCTTCACCATACTCCTTATTAATATCTTTTTCTACTGCTTCTAATGTTTTATTTACTTCTTTAGCTGCCATTTGATTCTTCCTTTATTTGATTAAGATTTTTCTAAGCTCGTTTAAACATAATGTTATTGATAATTCTCGATTAGTCTTTCGATCAGACGTCAAATTATATTCATGAATATATAAATTATTTTGATAAAATATTCCAATAAATACTAAACCAACGGGTTTTTCTTTGGATCCACCACCTGGTCCTGCTACACCAGTAATTCCTATTCCTATATCTGTAGTACAAATACGAGCAATATTTCGACACAATTCCTCAGCAACTTCATAACTCACTGCCCCAAATTTTTTCAATGTTTTTTCTGAAACGTGAACTAGGTTTCTTTTTAATTCATCGCTGTAGCAGATCACTCCCCCTTTAAAAAATGCCGAACTACCTGCTATATTGGTAAACGTTTCTCCCAAAAGACCGCCAGTACAGGATTCAGCAACTGAAATAGTTAATTTTTGGCTCAGCAAAGCTTGCGTCACTGATTCAATCAAAGTTTCTTCATCATATCCATAGATATTGTCTTGAAGAATAAGGGTAATTTCATCCACTAGCTTGTCTATTACTTCACGGTTTGTCGACATAATTCGAATATCTACACCAAACATTTTATGCGGTAAAAAAGACACTTCACAACCTTGATAATGCTCACTTTCGATTAAGTGAATAATTTTCTCATGAATTAAAGACTCAGCAATAGCTGCAGTATTGATTGATCGACAATAAAATTTCTCAGATCTCTGTTTCAAAATTTCTGTAAGAACAAACTCTTCAAACATAGCTTTCATTTCCATGGGAACCCCTGGAAGAATAAAGTATTTTTTACCTTCTAGATGATAGAATAATCCACGGGCAGATCCTTTTAGATTTGGAATCATTTTTCCAGTAGTAGATTGATAACATTGATTACGATTAATTGGAGGAATTTCCATGCCTTTATTATTAAAGTATAACTTTAACTTATTCCAGTAAGACTCATCATATATGGGTTTATCATTAAAATAATCAAATAAAGTTGAGGTAGTAATATCATCAATAGTTGGACCTAAACCTCCTGTAGAAATCACAATGTCACAATCTTCTGATAAGGAGTCAAAGGCACGAATAATTTCATTTTTTTGATCCAAAACAGTGATTTTTCGATGTACACGAAGGCCTTCATTTAATAAAGTTTGACCAATCCAAGCTGCATTTTTATCAATAGTAAAACCTCCAAGGATTTCATTCCCTATCACAATGATACCTATCTTCATCCTATCACCAAGTATAAGGAAATTAATACCAAAACTAGGAAGGCCATGAATCCAGCAACTAAGTCATCGGCAATGACACGAAATAATGCTCTTTCTTCCTTGAAAATTGAAAGGTTTTTAATCGATTCAGGAACACTTTTTGGCTGGTCAATCCATTTAACAGGAACGGGCTTAAAAATATCAAAAAGTCGGAAAAAAATAAAAATAATTCCTAGGACTAAAGAACGGTCATAAATATCGAACAAATTGGATGTTGAAGATTGAAATAACAAAATAAAAATTTCCGTTAAAAGAATTCCGAAAGAAAGACCAATGATTTCATCTAAAACGTATTGTTTTGGGTCTTTATCATCCTCTAAAGAGAGAATCATTCTCAAGGAAGGCTTGTAAACCAGTAAGGATAGTAGAAAAATGCTTAACACGACATAAATTGAATCATATGTAAGAATAAATAAAAAAGTTAATAGTGAAGCAAGGGTTCCTCCTCCTCGAATTCTACCAACAAAAAATAGATTACCAACTAGTAGTAATAACTTATTTTTAAAACCCATTTTTCCAGACATAATGGATGCCAGTAAAAGCAGAATAAACTGCATTTAATCCAAAGATTAGGTTTAAAGTTTCAAGATAATAGACTTGTAACCCATTAGTAAATTCATAAAA
>sequence40
AGCATGTAAAAAATGTCCTGCTACGGGGGAAGCATATTCAATCATTTTATCTGAAATCTCCTTTGAATATTCTTTGGCTTTACTTATCCCCCCTCCATATAAATCATCGCCAAAAATAATATGTCCTTTTGATTTTGAATGAACTCTAATTTGATGAGTTCTACCAGTTGTTGGAAAAAACTTTAATAAAGATAAATATTGACCATTTTTTACTAATTCAAAGTTTGTATTAGCGCTTTTTCCTCTTTTCAAATTTGAGGAGATAAATTGTTTTGGATTAGATCTATTTCGAATAAGATAATCACTAATGAGTCCTTCTTCCTGATTCCATAGTCCCCAAGTAATTGCTAAATATTCCTTCTTAACTTCACGATTTTTAAATTGTTCAGCTATTTTCCAATGAGCAAAAGCCGTAAAAGGAATTATCATAATTCCAGATGTATCTTTGTCTAATCTATGAACAATTCCCGGTCTTAATGAATCTATGCTTTGATCAATTTTTTGGTCGAAGTGCGCTAGAAGAATATTAACTAAAGTATGATCTTGGTTTACTGTAGTCGGATGGACAACAATACCTTTCGGTTTATTAATTACTGCTAAATTTTCATCTTGATATAAAATATCCAATGGATGATTCCATGGAAGTATCTCTTTGAAAGTTTGATTAAGAATTTTTTCCTCCAAAGTGATCTTATCGCCAATTTGAAGAAGATATTTTTTTTTAACGCTCTGACCATTGACTAAAATTGAATTATCTTGAATCATTTTTTGGATTTTTGAACGTGATAAATTATCAAATCTATCCGATAAAAATTGATCAACTCTTGTTGACTCATCAATACTAGAAATAGCTAGGCTAATCATTTTTTATTAAAAAAATTGCTTAACAATAAAAGAATCATCCCTACAGTCACTGAAGAGTCTGCTATATTAAAAACATACCAATGATAATTACCCCAATAAAAATCAATAAAATCCACAACATATCCTCTAAAAATTCTATCGATTATATTTCCTATTGCACCAGATATAATTAACGTTAACCCTAATTGGGAATGATAGTCTTGAAAATCTTTATCTTTTAAAAGTCGATAAAGGTAGTAGGTGATGACAATTGGTATTATGATAAAAAAGATTTTGGATCCAGGAAAATTTATTCCAAATGCAATTCCTTCATTTCTAATATAGGTGAAGTTCAGAACCCTAGGAATTATTGAAACACTTTCGTAAAGATAGAAGTTAAAATGGATAAGAAATTTAGAAATTTGATCTAAAAGTAGTACAGCGACAAAAAGTGCTAATTGCATTATATAAGATTTAAATTCTTTTTTTCTTTACAAAGCACGCCTTTAGTTGCATTCGGAACTTCAATTAATCTTTCTTTGCTTATCAATGGCTTTTCTAAACATTGACATTCATTTGGATCTTCCTCGTAAATCTCACAAATTCCATAAGATCCATCCTCAATTCTTTGCAAGGCTTTTTTTAAATTAACTAAATAGTCAGATTCTCTAGACATCAGTAAGAAACTTTTCTCAACTTCACTAGACTCTGTCCCCTCATCATAATCCTCACCATTATCTTCCATAAAAATTTTTCTTGAATTATTTGTAGTTGAACGAACAGATTCAATCTGATTATTGACTTCATAAATTTTTTCAAGAATGTTTTCTTTAAATTCTTTTAATTCTTTTGCACTGTATTTCTTCTTCAATCTACACCTCAATCTGCTTTTTTAATAAATATCTCAAATTTTTCATCTTCTAAACTAAAAAGTGAATTATAACTAAAGTTTTCAAGATTTTCTACAATCTGCAAACATAAAGTTTCATTCATAAAATATTCTTTATTTTTTGATAATGCATTATTAAAAATTTTTGAGAATTTAGAGCCAATAACTATTCGATCCTCTACATTTAACTCCGCATCTTTTCTCATGGTTTGTACATGTCTGATTAAATCTCTTACTAACCCTTCATGCATTAACTCTTCATCAATATCAATATTTAAACTTACAACATTATCTCTTGAGAAAAAGGCAACGTCAGAGTCTGAATTTTCAATTTCAATAATTATGTCTTCAAATGATAATTGATTCTCAGATTCAAAAGAAGCATCTCCGTCAAAATATTTTTGTACAACAACACTTGAATCAAGACTATTGATGTACTTAATAATTTCTTGCATTTTATCTCCAAATTTTTGAGACAACGATTTAAAATTAGGCTTGATGCTAAATACTCCTATGTTTTTAACGTCTTTTTCAAGAATAATTTCTTTAATATTTAATTCATCTAAAATCAACTGTTTCTGTTCAATTATAAATGAATGAATATCCTGATTTCTTGTAAATATTTTCAAACTTGATAAAGGTTGACGGATCTTAATATTTGCTTTTTTTCTTACCGCTCTTCCATTTTCTATAATAGTCTTTAAAATCTCCATCTTATCGACAAGATGAGAATTAATTAATCCTTTATCAGATTTTGGAAAACTACAAAGATGCACGCTAGTTTTATTTTCTTCAGGATCTTGGGAAGTTAAATTTAGGAACATCCTTTCTGTAACAAAGGGAAGAATAGGAGAAAGTATTTTTACAAGATGCACCAATACATGATAAAGCGTTTGAAAAGCAATCATCTTATCAGAATCATTTTCGCTTTTCCAAAACCTTCTTCTATTCTGTCTGACATACCAATTTGATAATTCATCTAAAAATATCTCAAACTTTTTCAAAAACTTGTCAACATTGAAATTCTCAAAATCCTGTTTTGCTTCATCGATTAATAAATGAAGTTTTGATAAAATCCATTCGTCTAGCAAAGACAATTTATCTTTTTGGAGCCATTTTTCAGATGGTTGAAAATTATCTAATTTTGCATAAGTACAATAGAAAGAATACACATTCCAGAATCCAATTAATTTTTTTCTTACTTCATCGGCTTTTTCATAACCAAAGAGCAAATTATTTTCAACTGGTTGTCTTGCATAAAGCCATCGCATTACGTCCACACCCATTTCTTCAGCTGCATCATCAAACCAAATAGCATTACCAGCTGATTTATGCATTTCATCACCCTTTTCATCTTTAACTAAAGCATGTCCAAGTAAAGTTTTAAAAGGTGCTTTATTTTCAAGAAATGCTGACATAGCTAAGAGTGAATAAAACCAATTCCTAAATTGACCTGGAAAACACTCAGTAATAAAGTCAGCGGGAAACCACTCTTTCCAATAATCTTTATCAGAAAAGTAGCCCATCGTGGAAAATGGAACAATACCTGCATCTAACCAAGGATTTCCAACATCGGGTATCCTTGTACCAATTAGACCAGTTTTGGGATGCTTAATTTTAACTTCATCAATCCAAGGCCTATGAGGTGTTTTTCCTTTAAATTGATCCCAGCCTTCAACAGCAAGTTCTTCTAACTCTTTTTTAGAACCTACTACATAAAAACTTCCATCTTCGAATGTCCATATTGGTAATGCTAGACCCCAAAATCTTTTTTTTGAAATCATCCAGTCTCCCATGTTATCCAACCAATCATGTTCACGGTCTTGCCCCCATGATGGAATCCAGTTGATATCATCCACGATTTTTTTAATCTGGTTTCTCCAATCCATATTGATATACCATTCATCAACTTGCTTAAAAACAAGTTCTTCTCCTGATCTCCAACAATGGGGATAGATATGAGGATAATCTTCTGCGTAAACTAAAAATTTTCTTTCTTTTAAATCATTGACAATTTGTTGAATTACTTCCTTATCTATCACACTCTTTCCAGACATGTAGTCAAACCCTTCTATAAAATTTGCCTGATTATCAATTGGAGAAATGCTCACAAAATCAAATTGTTTACAAAGCTTATTATCAATGGAGCCACAACCTGAGGCAAGATGTACAAATCCTGTACCCTCTCCTTCAACAACCATATCATTTCCTTCAGAATCTTTACCGCCATCAACAACAAGATGGCAATCTATTGCACTTTTATTATTAATCGCTTGAGGATCTA
>sequence41
AAATACTAAGATTTATGCCCATCAAACTTTTGAAAAAGGATTTACCGATCAAAACAACTTGATTCGACCCATTTTAACCCAACGGGGGATGAAGCAATTTGGCTTTTATCTCGCTCCTGAACTCCAAAATGGTCAGGGATTAGGCTCTTCACTGCAATGGAGTTTTAATCAATCTCCAGTGGTCTACCCTACTGATTTTTTTGTTGGAGAGAAGAATACCCTTACGATTGCAGGAATAACTCTTGAAGTGCAACATGCTCCCGGAGAAACTGATGATCAAATTCTAATTTACTATCCAGATAAAAAACTGTTAATTGCCGGAGATAATTATTACATGCGTTTTCCCAATCTCTATACGATTCGAGGAAGCAATTATCGTGATACCAAGAAATGGTATCAATCCGTTGATAAAATGCGCGATTATCAAGCAGATTATCTCTTGAGTTGTCATGGCCCTTATTTATCCAATAAAGAAGAAATTGATCGTCGTTTAACTGTCTATCGAGATGCCATTCAATATATTCATGATTACGTCATTCGAGGAATAAATCAAGGAATGACTCCGGATGAGCTTGTTTCTAACTTTATTTATCCAGACTTTTTTGATAATCAGTTTGATTTAGAGGAAAAATATGGAAAAGTTAGTTGGAGTATTCGCAATGTCTATAATGGTTATCTAGGATTTTTTGATGGAAAAGCGGTTAACCTCGAGCCTTTATCCCATCTTGAAAGAAGTCAAAATCTGATTAAGATGCTTGGAGGTAAAGAGCAACTCATTTTTCAAATTGATCAAGCAATGGAAGAAAATAATTATCAATGGGCAGCCGAATTATCTGATATCGGTTTTAGTGTATTTCCTCAAGATCCATTGATAGTCAATCGCTATATACAGTCCTTGGAAACTTTAGGTTCTTTAGAAGAGAATCCGATTGCTAGAAATTATTATTTTTCTGAAGCGCTCGAATTGCGAAATGGAAAAACCTTTGAGGATTATTTGATTAGTCCAACCGATGCCAATTCTGTTCCATTACAAGCCTTTTTTGAATCGATGCCTACTCGTTTAAATATTGAAAAGGCTAAAGGAGAATTTCTTCGAGTAGGATTCAATTTCCCTGATACTCAAGAACAATATGGAGTGATTATACGAAATCAAATCGCAGAAATTACTAACTCCTTTTCTGAGGATTATGATGTCATAGTGACAGTTGATTCAAACGTATGGAAAAGTATTCTTTTAAAAACTAAAGATGGAAAGCAAGCTTTACGAAATGGGGAAATGATTCTCAATGGCAATTTGCTTTGGTTTGCTAAGTTTAGTTCTTTATTTGAGTAACTTAGTAATCAATTAAGGTAATCACTTCACCATACTTTTCCGCAATCTTTTTAGAACCTCCTAATGCAGGAAGATCAATCAAAGCGATCGTATGGATAGCTGTTGCCCCTAATTCTTCACAAATTTCCGCAGTGGCTAAGGCAGTACCGCCTGTAGCAATTAAATCATCAACGATTAAGACTTTATCTCCAGGTTGAATCGCATCTTTATGAATGTGGACACTGGTGTTTCCATATTCTAAAGTAAATTCACGAAAAGCAGTTTCTCGAGGTAATTTATCCGGCTTTCTAGCTAAAACAAAACCAGCCTTAGTTGCATAAGCTAAGGGAGCTGACCAGAAGAAACCACGCGATTCAATACCCACAACTTTATTAAAGTCTAAATGAGCAACTTTATCTACCATAATTTTTACAGTAGAACGAAAAGCATCTGGATTTTCTAATAAAGTGGTGATATCTCTGAAAACAATTCCGTTAATTGGATAATCATAAACGGTGGTGATTGTTTCTTTTATTTGTTCAATATTCATAAATATTGGCTTGATAATACGTTAATTTGAGCAAATTAACAATACTATTGCATTAACTTCGATAATGCCCCAAAACCCCCTTGGACATTGATTAAGTTATGATAACCACGCGATTTCAAAATAGAACACGATATCACAGAACGATACCCACTTCCGCAATATAAATAGGTAGTATCTTCTTTCGAAAGCTGATCCATTTGAAGGTTCAATTTATTCAAAGCAATGTGCTTGGCCGTTGGCATTGAACTAATAGAAAATTCACTATCACTACGTACATCTAAAATATTTTTACCTTGATACGCATCCATAAATTCTTCAGGAGAAATATTTTCTAAAGAAGCCACTTCTTTTCCCGCTGCTACCCATGCATCGATTCCCCCTTCTAGGGTTCCAAGAACATTATCAAATCCTACTCTTGAAAGACGAATACGAGCTTCTTCATACTGCTCTTTAGAATTGGTAATTAATAGAATACTCGTTTGAACATCGACAATTAACTCCCCTACCCATGGAGCAAATGGACCTGATAGTCCTACAAAAATACTATTAGGGATATGTGCCCTAGAAAATTCCTCTACGGTTCTTACATCTAACATTAAAGGATGCTCTTGATTGGCTAATTCTTCAAACTGATCTGGAGAAAGATAGCTGTCATTTGATTGAGACAAGAGAGTATCAACATGCTCATATCCTTCTTGATTTAAACGAACATTTGCTGAAAAATATCCAGGTGGATCTCCTAAACCATCAAGGACTTCAGCGATGAATTCCTCTTTGGTCATATCTGCTCTTAAAGCATAATTGGCTTCTAGTTGATTCCCTAATGTATCTGAAGTTTCACTACTCATTTTTTTTCCACAGGCACTTCCAGCACCATGAGCAGGATAAATAATGGTAGACGGATCTAATTTCATTACTTTTTGACGTAAAGAATCATACAAAATGCCAGCTAAATCCTCTTTGGTCATCGTTAATCCTTGTTGCGCTAAGTCTGGACGTCCAACATCCCCAATAAAGAGGGTATCTCCAGAAAATAATGCTTTCGATTTCCCTTCAGCGTCTTTCAATAAATAACAAGTACTCTCTAAGGTATGTCCAGGTGTATGAATGGCTTGAATCGTACAATCTCCGATTTGAAAAACTTCTAAATCTTGGGCATTATAGGCTTCAAATTGCGTATCAGCATTGGGACCATAAATAATCTGTGCACCCGTTTTAGCTGCTAAAGAGACATGACCACTGACAAAATCAGCGTGAAAATGTGTTTCAAAAATATACTTTAAAGTATGATTATGCTGCGCTAAACGTTCAGTATACGGAGTTATTTCACGTAATGGGTCAATAATTGCTACTTCCCCATTACTTTCAATATAGTACGCTCCCTGCGCTAAACAACCGGTATATATTTGCTCTATCTTCACAATTTTTAATTCATGGAAATATTATGTTTGACGCATAAGCCAGAAAGAAAATTCCACAGATGTTTAACAGTGCTCATCCCTGCTTCTTCAGCAAGAAGTTGCTCTTCTTGAGATAATTGTCTCATCAAAGAAGCACTTTGTTCACGATGCTCTACATCCGCTTCCATGTGAACAGTAAAGTATTCTAAGCCTTCCTTAGAATCAACACTGTAAAATTTCCTAAGACCTTCAATTTTTGTATCTGCAATTTCAGGCACTTGACGCTCATACGCATACAAAGCACCTAAGCCTTCTGCATAAGAAGATCGACATAAACGGAAGAAATTCTCAATAAGCTCGTTGGTAAATACCTCAGATGGTAGAGTCTCAATAGCATTGGTGTCAGAACCGACCGCCTTTGCAAATTGTTTCCACAACAATGGATGATCTTTGGAAAAATCTTCTTCATCAGTAAGATTTTCGAGCAAAATTTTTCTTTTTTCAATATCCTCACAAAGAGAATGTGTGGCACTAATATAGCGA
>sequence42
ACATATTGATTTTGTTTCACTATTCTTTGGTCACGGTCTTTTATTTTTTGGAATTATGTACATTTTAAAAATTTACAAACCATTAATAACTTTTCATTCTTTGTTAAATGCATGGAAATATGCCTTTATGATGTTCCCTTTTATTTACATAATCAATCTTGTAGTTAATATGTTTGCAGATCCAAATTATCAATCCAATTTATGGTATTTGGCTAGTCCTCCTGGGGGAGCATCAATTATGGATTTTTTTCCAGCGATTTTTCAAAATCCTCCAATGCATATACTTCCTTCAATAGTAATTGGATTTTTAGTATTTTTATTTCTTTATTTACCAATGTATTTAATCAATAGAGGAAAATCATGAAAAAGTTTTATTTTCTAGTCATGTTATTTAGCATATTAAATGCTTCTAGTAATCCAGTTGGAGTAAAATTTCCAACCATAAAAGGAATATCGCTTTCTGATAAAAGTGTTACTTTTCCTGATGATTTAAATAATCGAGTTTCTGTTTTATCAGTGGCATTCAAACAGCAAGCTCAATATTGTATTAATAGTTGGGCAGATGAATTTTTAAAAAAATATGGTCTGAATCAGTCAGTTCTATATTATGAAATACCAATGTTAGGTGCTCAATGGAAAATGGCTCGGAATTGGATTGATGGAGGTATGAGGGGAGGCGTTCCAAAGCCTTTGCATGACTTTACAGTAACATATTATGGTCCCCTTAAAAAGTATTATAAAAGCTTAGGAATCAATGATAAATCCGATTGCTATATCTATATATTGGATAAAGAAGGTGTTGTTCAGGAATATTTTCAAGGGTATTCCAAGCCAGAAACAATTAAAGATTTTTTTAAATTAATTGACTCGCTAAATGACCAATAGTATTGCTTCAACATATGAAGATTTTTTACTTGCTTCGGAAAATGCAGCTATTTCCGCTGCCACTGTTCGAGGTAAGGGAGATGGAAAGTTAGCTGATAAGCTTGCAACTGACAGCCTAAGAACATCATTAAATAGACTAAATCATCAGATTAGAGTAGTAATTGGTGAAGGTGAAAGAGATGAAGCGCCAATGCTTTATATCAATGAACTTCTTGGAAGTGCAACCTCTAATTTAAATTTAGATCTTGCCGTTGATCCATTGGAATGCACTACAAATTGTGCACAAAATCTACCCAATTCGATGTGCGTAATGGTGATAGCCAAACAAGATTCTTTACTTTCTGCTCCTGATACTTACATGATGAAAATTTGTGGTTCAAGCAAACTCAAAGGGCATTTATCTATCAATTATTCAACAATAAAAAATCTTCAAATCTGCTGTGATAAATTGAATAAAAAACCAGAAGAGTTAAAAATAGTAGTTATGGATCGAGAAAGACATCTCAATATAATTAATGACATGCGTTCTTTTGGTGTCAATCCAATATTGATTACTGATGGAGATGTTTCAGCTGGTATTGAAGCTGCTGAAGGTAAAATTGATTTGCTTTATGGTATTGGTGCAGCGCCGGAGGGAGTTATTACAGCAGCAGCAGTCAAAGCTCTTAATGGATTTTTTTTAGGTAAGCTAGTCTTTCAGTCAGATGAATTTTTAGATAGATCTAAAAAGATGCTTGGAGAAGATATTCACAAAATATGGTCTGAGAATGAACTATGTATTGGTGATGATTATTTTTTTATAGCAAGTGGTGTTTGCGATGGATGGATTCCAGGTGTTAAGTTTAGTTCAGTAGGAGTAGAAGTTTTTTCAAAAGTTATCTTTGGAAAATCTAAAAAAATTCACTTAATTAATAATATATATTCCAATGAATAATTTAATAAAAACGGCTTTAAAAATGGTAGAAAGTGGCAAGGGAATACTTGCTGCCGATGAAAGTAATCCAACATGTACGAAACGATTTGAAAGCCTATCTATTGAATCTACTCCAACATCAAGAAATGCTTACAGAGACTTACTATTTTCTGCTCCAGATATTGAAAAATATATTAGTGGAGTTATTCTCTTCAATGAAACTTTTTACCAAAAAGATTTATCATCGCAAGCCTTTTATCCTGAATTTTTATCTAGAAAGAACATTTTACCAGGCATAAAAGTGGATTCAGGACTAGAACTTTTAGATGTTTATACTAAAGAACAAGCTACAAAAGGTCTTCATGATTTAGAAAAAAAAGCCTTACAATATTATATTGATGGTGCAAGATTTGCTAAGTGGAGAGCTGTTTATCATATTGATGAGTCATTACCTAGTCAAAAAAGCATTGATAGAAATGCAAATGATCTTGCAGATTATGCTTCAATTTGCCAAAGCTCTAACTTAGTTCCTATTGTTGAACCGGAAGTTTTAATGAATGGAAATCATTCTATTGCAAAATCTTATGAGGTGACTTCCAAAGTCTTACATTCAGTTTTTAAAGAATTGTCAAAAAGAAATATTATTTTTGAAGCAATGATTTTAAAGCCCAATATGGTACTTTCTGGTTATAATAATAATCAACAGGCTTCAATTGATGAAGTCGCAAAATGGACTGTCAAATGTCTTAAAGAAAATGTTCCTTCTGATGTACCTGGAATAGCATTTTTATCTGGGGGACAATCTGATGAACTTGCAACTTTGCATTTGAATGCAATGAATCAATTACAAAACCCATGGAAGTTGACATTTTCTTATGGAAGAGCATTGCAATCCCAAGCTCTTCAAATTTGGGCTGGAAATCAAAACAATATTTTAGAAGCCCAAAATGCATTTCTTGAACTCGCTAAAGCGAATAGTTCAGCTTCTCAAGGACTTCTTTAATTAATTTCTTGAAAAATTAAAACTTTATTTGAAGTCTCAATTTCAAATTGATTCCCCATTGATCTATTTCTTATAGAAAAATTTGAGGGGGTAATTTTTGTTTGGTTAAGTTCATAAAATAAGTTTTTGGACTGAACTAAACTCTTTTTTTCAAATGTCATGATACTCACAGTTTGATTTTTAAATGATTTAAATTTTCGATAAGAAGAGATGGGGGTAATAATATAATTATCCGTAAATGCTTCAAGTAAAATTTTTTGAGAAAACTTATTCAAAGTCAATAAATTTGATAAATGATGATCTTCATCTTTACCACCTATGCCAAAAATAGATATTTTTTGAATTTTTTTTTCTAAACACCAAATTAAAATTTTTTCAAAGTCTGTTTTACTTTGGTCTTTAATTTCAATTGATTGAACATTATATTTTTCAATCAAACCTTTGTCAGCTGAATCCAAATCTCCAATCACAAAATGAGGAATTATTTTATTTTGGATTAAGTGATTCAAGGATCCGTCCGCAGCAATTATTATGGATGAATCATTAATAAATGCTAAATGTGTTTTATTTGCAGGGAATTGTCCGTTAAGAACAAGAGTTGCATGCTCTGGTATTTCCATTGAGACTAAGAAAGACGATTTTCTACAAAATCCCAGTTAATTAAATTTTCCAAAATAGCTTTAACATAATCACCACGAAGGTTCTTGTAGTCAAGATAATAGGCATGTTCCCATACATCTATTCCCATTAATGCATGTTGATTATATGCTAGTGGGTTTTCAGCATTCGGAAGTCCCATAATTGCAAGCGTGTTATCTTTTTCAACTAACCATGTCCAGCCACTTCCAAAAACTCCTAAGGAGGCAGTAGTAAATTGTTGAACAAAGTTGTCAAAAGATTCGAAAGATTCTTCAATTTTTGAGGATAGTTTCGATTGAATTATCGTTTTTCCATTTGGAGACATTTGATTCCAGTATAAATTATGGTTCCAGGCTTGACCA
>sequence43
CTTTGGATTGGTTTTAATTTCAATAGATTTTCTAGCCAATTTATACAAACGTACTCCATCAATTTTTCGAGCAGAAAACATAGGAGTTCGTTGAAGTTGCTCTCCAATAAATTCTTTCGTTTGTTTTTTTAGGACTTCTTGGGAAATACTGGGAATAGCAGCAGTATCAGTAATGGTTCCAGTCAAGTCCATACTATCAGTTTTTTGACCAAGCTTTACTGTTGCTCGATAAGATTTATCGAATTGAATCGCTTTAGTTAGCAGTTTGGTAGATGTTCCTATTCCGATCAACAATACACCATCTGCAAAAGGATCTAAGGTTCCAGCATGTCCAACTTTTTGCTTGGTAATTTTTTTAATCTGTTTAACAACTGTAAATGAACTGCAGTCTTTCGGTTTATAAATATTAGCCAGCATTTCTTAAATTTTTTTCATTAATTCGTTAATCTTTTGAAATTGTTCAAAAGAATCGTCATAAAAAAACTTTAAGGTTGGTACGGTTTTCAATTTAATGGTTCGAGAAAGAGATTTTCGGAATAAAGGAACAAGTTCATTTAAGTTTTTAGCAATGGACTCAACGGTTCTGCTGGGATTAATTACAGAAAAGAAGATATTAGCATGTTTTAGATCTGAAGTGACCTTAACAGTCGAAAATGTGATAAACCCGAGTTTACGGATATCGATTTCATGTAAAATAAGTTCATTAACAACCTTCAAAAGTTGTTTTTCAACTCTTTCAGCTCGAGAAAATGGCTTGTTATTCAATTTTAGTTTAACTTACGTTTTACTTCGCGAATCTTATATGCAACAATTTGGTCACCTGGTTCATACTTGTTGACGCCTTCCACGGCAATCCCACATTCCATACCAGACTCAACAGTATTGACGTCATCTTTGAATCGTTTTAATGATGAAATTGTTGATTTAGTAACCAGTATTTCTCCATCACGAACATGACGTACAAAACAATCGCGCTTAATTTGACCAGACTCAACTTGACAACCTGCGATAAAACCAATCTTTGGAATCTTGAATGACTCTTTCACAACCGCCTGACCAACCACATCTTCTATTACATCTGGGGTTAATAACCCTTCAACAGCTAAGCTAATTTCTTCTACTAACTTATAAATAACTGAATAGGTACGAATTTCCACATCGTTCTGACTAGCTAACAATTTGGAATCGGAAGAAACTTGGACAGCAAAACCAATCACGATTGCTTTGGAAGCTTGTGCTAATAAAACATCTGAGTCCGAAATATTACCCACCCCTTTGTGTACGACTGAAACTCCTACCTCTTCATTTTTAATCTTTTCAAGACTTTGGATAATCGCTTCAATAGAACCATCTGAGTCCGCCTTGATAATAACATTTAATGTGCTAATACTACCTTCTTTGATTTGTGCTGATAAAGTATCCAAAGTAGTTTTACGCATCATTTGAAGATCAATTTCTCTTTTAATACGTTTTCGCTCTCCAGCAATTTTCTTTAAATCAGATTCATTCTGAACTTCAGCAAAAATGTCTCCTGCTTGAGGTACTTGGTCAAAACCTAAGATTTGAACAGCATCTGATGGTTTTGCAACCTTAATTCGTTCGTTATTCTCTGTCATAATTGCTCGAACCTTTCCAGAGGAATTATTACAGATAAAAGCGGTTCCAATTTTTAAGGTTCCTTTTTGGATTAACACAGTTGCAATTGGACCCAAACCTTTATCTAGCCTAGAATCAATCACTATCCCTTTACATTCAACTTCAGTGTTCGCCTTTAAATCTAATACTTCCGCCTCCAATAGAATGGCTTCCATCAAAGCATCGATTCCCTCACCAGTTTTGGCTGAAGTGTTAACACTTTGAACTTTTCCTCCCCATTCTTCAACTAAGACATTTTTTTCGGAAAGTTCTCTTTTAACTACATCTGGATTTGCGCCAGGTTTATCAATTTTATTTATCGCAACGACAATGGGAACATTGGCAGCTTTTGCATGGTTTATCGCTTCAATTGTTTGCGGCATCACACTGTCATCAGCAGCAACAACTAAAATAACAATATCGGTTGATTGAGCTCCTCGAGCACGCATAGCGGTAAAGGCTTCATGTCCTGGGGTATCTAAAAAGGTAATTTTTTGATTATTATGAAGAACATGATAAGCACCTACACGCTGAGTAATCCCTCCGGATTCCCCTGCAGCCACCTTAGTTTCACGAATAAAGTCTAAAATTGAAGTTTTTCCATGGTCCACATGCCCCATAATAGTCACCACTGGAGCTCTTGAAGTAGCAGATTTAAGTTCTTCATCTGAATGGGATGTGACAAAAAGATCATCAACCATTTCTTCGTACTTTTTAACTGCTACACCATATTCGTCAGCGATTAATTCAATAACATCCCATTCTAGACGTTGGTTGACTGTAGCCAGAATACCTAACTGTAAACATTTCCCTATTAATTCACTAGTTGAAACATCGAAAACCTTCGCGATTTCACTGATACTTGAAAATTCAGCAATTTCAAATACTGTATTTTCATCTAAGCTTTTAGAGTCTTTTTTGAATTTCTTATAATTTTTCTTTTTGGGAGAGGTTTCAATTGAAGCTAGATTTTTCTTTAATCGTTGAATAGCTGATTTTTCACCTTTTTTATCTTTTTTATCCGAGCGCTTTTCCTCTTTTTCTTTTGGAGATTCAGGTTCTCTTAAAGATATTTTACGAAGTTTCTTTTTCGGAGACTTAATAGAAGTTTTTTCAGATTTATCTCCAGTAGGTTCAGTAGAATCTTTAGGTGATTCTAGTTCAACTTTAGGTTTATTTTTTTGCAGTTCTTTTTCTTCTTGTACGGAAAGAATTTTCAAATTTTTCACTGATTTTGATTTCATGACTACTCTAGAATCATGAATTTCTTTACGAACTTGTTCTTTTCGATCTCTTTCAGCTAGTTGACGATCCTTAGCAAATTCAGTATAAACGATTTGCTGTGTTCTTCCATCAATTGGAGACATATGACTTGAAACATCAACGCCTTTTTGCTTAAGAAATTCAACAATATCATTATGAGAAATGTTGAGCTCTTTGGCTAATTGAAATATTCGTATGGAATCAGACATTATTCCTCTGTAGTTCTCTCATCAATTTCTGGTTCATCTATTCTGTTAGAAGTTTCTTCAGAATCATTCAAATTTTCTTCTGCATCCTGAAGAATACTATCCATATCTACAACTTCTTCCTTAGGCTCCGCAACAATCTTATTGGATGCAATAAAAGCGTCTACCACTTCTAAAACAGATGTAATTTCATCTGAGCTTAAACCTATTTCATCAGATAAAACAGATTTCCTTACATTTAAAAAATCAGTAATAGAAAAAATACGTACATCGTTAAGTTTTTTGATTAAGGATTTATTGATACCACCTAAACTTTCAAGAGTAGTAGATTGATGGAGTTGTAGTTCTTCATACTCATCTTTGGTGTA
>sequence44
AAGGCTGCGTGCGTTACGATGATTCCTCGTGTACGCTCTAAGTTCTTAATGGAAGGTAGAATCACCGAATCTAGAGAAGTGATACTTTTGATCAAAACTCTGAAGAAGCATGAAGAATCCGTTTATGAAACGGTTCGTCAATTACATAATTACGAAACTCCAGAAATAATTACCCTTGAAACTTCCAACGTTGATTCCAAATATTTAGATTGGATGAATGAGTCTCTTTAATGAAATTGCACAAGATTTCAGAGAGAAATATTTTGAAACTGGTGGTGGGAACTTTAGTTTCCATCATGATTATTACGGCGATTGTGGTTCTTATTATTAAAGGGCCCGCATGATGAGTATTTTAGATAGTATGCGATGGCGATACGCCACAAAAAAGTTTGATCAGACGAAGAAAATTTCATCGAAAGATTTATCCGATTTAAAGGAAGCCATTCGTTTAGCACCGTCATCCTATGGGTTTCAATTATTTAAAGTTTTGATCATTACCGATCCAGATATCAAGAAAAAGCTGTATAAAGAATCTTATCTACAATCTCAAGTTAAAGATTGTTCTCATTTATTTGTCTTTTGCAGTTATAAGAAAGTCAACGATTCCCATATCGATGAGTTCACCACTTTAATGGATGAGTATCGAAAGCTTGACAAAGAAAAAGGAATTATCAAAACTCTTCAGTCTAAAGCCAAAATTTTAGCTTATGGAACTATTGCAAAAACTGACCTTGGAAGTAGAAAAGAAGAGGATTTGTTACAATGGATGAAAAAACAATGCTACATCGCTATGACACATTTACTGATTGCTTGTGCCGATAAGCGCATCGATGCTTGTCCATTTGAAGGATTTCGTTCAGCTCAGTATGATAAAATTCTTGGTCTTGAAAACAGGAATTTAACCTCAACAGTTTTGGTTCCAGTAGGTTACCGTTCTGATGAAGACCATCATCAGCATCGTACTAAAGTCCGAAAATCCTTAGAAAATATTTTTGAAGAATTATAGACAACCGTCATTTTTTTATGTACTTTAAAAGGTTTCGCTAAAATAAAGTGAAAAAAGGAGAGTTTATGATTAATAAAATTTTAAATTGTAGTTGCTATGACAAGTATCAAAGTTTAGGAAAACTTTTGGTACGTTTAGTCATTGCTTCGATTTTCTTGTATCACGGATACGCAAAGCTTACATCTCCAAATCCCTTAGAGTGGTTTGGAGTATCGACAGCGGTAGGAAAATTAGTTGGATTATTAGAATGTGGTGGTGCTGTGTTATTGATTATGGGGCACTACAAGGATTCGTTAAGTCGACTTGCAGGTTTCATGCTTTTACCAGTTATGGGTGTAGCCTTATTCATGGTAAATCTTCCTCAGGGTTTTGTAAAAGCACGATTAGACCTGCTCCTATTTGCGCTGGCAATCTATTATATTTTAGTTGATAGAGACTAGATAACACAACAACAAGCCCATCTTATACTTAGGGTGGGCTTGTCCCTCAAATACTTTGTAATTACGCTTTTTTTCGATAATATCACGCACATTTATCAGGAGATTGTATGAAAGGTTGGATTTTTTCAAATAACGTTACCGAGTCTTATGAATCACAAAGACTGATCATGGAATTTAAAAAACGTAATATTCGCGTTTATTACATTAATCCATCCAATATCGATATTTTTGTCAATCGTGAAGACCGTAAATCTATTTTAGTCAATAATGAATTTGCTTCCTTGCCGGATTTTGTCATTCCTCGTTTAGGAAGTTCGATGAATTATTATCAAAAATCGGTGATCCGTCACCTAGAAAAAATGGGTGTTTTAATCATCAATGGATCTGAATCGATTGAAAATGCCAAGGACAAACTTTTTTCCATGCAGATTTTAGCTCAGCAAAATATTCCTGTTCCCAAAACCCTTTTAGCAAAAGATCCGGTCAATATTGAATATATTAAGCGTCGTATTGGTTTCCCAGTAGTGGTCAAAACCTTATCGGGAACACACGGAAAAGGGGTTTATTTAGCCAAAGACGAGACAAATTTACAACAATTACTCGATATGATTTCTGAAATCAATCCACGAATGAATTTAATCATTCAAGAATTTGTTTCTGCTCAAGCGGGAACCGATATTCGCGTGTTTGTTGTAGGAGGAAAGGTTGTGGGTGCAATGAAACGAGAATCCAAAGATGGAGATTTTCGTGCCAACGTTTCTCGAGGTGCGATTCCTTCAAACTTTGAAGTAGATTACGATGCGGAATATTTGGCTCTTGAAAGTTCCAAGTTATTGCATTTAGACATTGCAGGAGTGGACTTGTTAATCGATGAAGAAGGCTACAAGATTTGTGAAGTCAATTCTGCTCCAGGATTCCAAGGATTAGAATCAGCTACCAACATTAATATTGCAGAAACCATTGTCAATTATGTTCTCCATCGAGTTGCCGTCCCTTCTGAGAAATAAAAAAGGCGCCTTTCGACCGACGCCTTTTTTACTACGAGGTAACAATGAACTATATTCTAGTTGGTATTCAAAGCTAAGTCTTTATCGCTAGTGTTTTCGCTTAGCTCACGATCATCATACTTCAGAGGTAGAACTGAGTCATCGATCGATTTATCTTCTTCGAATGGGTAGGGTTGTTCAACAACAATGATGTCTAAATCAACCTGTTCGAGTTTGATTTCATAATCATAATTGGTAGTATATAAACGACCATTCCATTCAAACTCTTGACCAGGACCTAAGGTTTTCCTTGCCATCAAAAAGGCCTCATTAAACGAAGGAACTGGTTCAATCTTTGTTTCAACTACTGCTTCAGCTACAGGATAGTTTGAATCAACTAATTCATCATCCTCATGTTGGCTAACCAAGGAAAGGGCTTCAGCATTGGCTTCCACAGTAGTTGATAATTCTTTTACGGGTTGGGTTGATACTTCTTCAATTAATACTGGGGTAGAAGGTGCATCAACGAAAAATAGTGCTCCTAAAGCAATAACAACAGTTGCAAGGACAAATTTTTCAACTAATTTCATTTTTTTATTCTCCATTGTTTGCACCTCTTAATATCGCTTTCTTATATTTTCAATGAACCATTCCTGAATTAGTTCCAAATATTTTTCATTTTTATTTATTTTTATTTGTAGCTTTGGTGGAAAAGGCATTTTTCACAACCCATTGAGTATTTAAATGCGTTTAGAAACAGAAGTAAAATTAGATTATAAAGATGTACTGATTCGACCTAAGCGAAGTACATTGGTTTCTCGTAAGCAAGTGGATTTAAATCGTACTTATAATTTCCGTAATTATCAAAGCGCTTCTGAAAGTTTGTTAACTCCTTCTGGAAAACCCATTCATTATCAAGGGATTCCCATTATGGCCTCCAATATGGATGGAGTGGGGAC
>sequence45
AAACTGCTCAATAATTAAATTGGGCGATAAATCATTTGAAAAAACTGTATCTACTACAGCAATTTGAATTCTATTTTTTTCAGAAAGATCTTGGGACTCTTCAATAGACAAACCTTCATAGTTGGGAATTGTAATGATATTTTTTTGATTGATATAAATTGGAAGTATTACATAATTGAAAAGAAATGCTACTAAAAGACCAGTCAAAAAAAGCCCAATAACATAATAAATCTTATTCATATGAAAAATTTTCACCCAAGATATTGTTCCCTCTTAAAAATTCTTCAGAAGACATTATTTTCTTTCCTTCTAATTGTAAATTATTAATCATCAAAATTCCATCTTTACATGCTACATGAATTAATTGATCTTTGGTTGAAATCACAGATGAAATTGGATAGTTATGATTGATTAATTTAAAACTAGATGCAAATATCTTTATTCTTTTTTTCTTTAAAAAAGTATATGCGCCAGGAGATGGACTGAAAGCTCGAATTTTATTTTGTATAAGTTCTACAGATTCATTCCAGTTAATTTGAATTTCTTCTTTCGTAATTTTTGGAGCTTTTGTAGCAAGAGCTTCATCCTGAACAATCAATTGAGCTCTATTTTCATAAATCAAATCTATTGAATTCCGAAGTAAACTACTACCTTCCTGCATCATTTTCATTTCAAGATCTTCAAAATTATCTGAATCATTAATTTTAATTCTTTTTTGTAAAATTATTTTTCCAGTATCTACTTTTTTATCAATAATAAATGTGGAGACTCCAGTTTCTTTATCACCATTTAATAATGCCCTCTGAATAGGTGCCGCTCCTCTATATTTAGGTAAAAGAGACGTATGCAAATTAATAGAACCAATTTTTGGTAGTTTTAAAATCGAAATAGGCAAAATTCTATATGCAACTACAATGAAAAAATCCGCTTTTAAATTTTCCAATGAAGCCAAAAAAAACTTATCATTCAAATCATTTATATTGAGCAAAGGAATATTCTTCTTTTCTGAGAAATCATGCACAGGCGTGATTGAATTTTTGCGACCTCTCCCCATTGGTTTAGGCTCATTAGTTACTACGGCAAGAATATTAAAAAAATGACTTAATTTTCCTAAAACAAAACTTGAGAAATTTGTGTTACCAAAAAAAATAATTTTAGGAACGTCTTTTTGCATTACTTTCTAGTAATTCGTTTAGTTTCTTTTCGTATTTAATCAAATCTGAAGGGGAGGCGTAATCTGTAATTAATTTTGCTTCAAGATGGTCATTTTCATGTTGAATGACAGTTGCTAATAAACCATTAAAAGTTTTTTCATGATGAACTAAATTTTCATCAAGGTATGAAAAAAGAATTTCAGAACATCTTTTAACTCTAATTCTTATATCCGGTAAAGATAAACAACCCTCAGTGTCAATTGTCTCACCACTACAATCCATAATTTTTCCATTAATAAACACCATTGGACTTTCAGCCTCTTCTGTATGAGAAATATCTACAACAAATATTTTAAAATTTATTCCAATCTGATTCGCAGCCAATCCTATACCATCATTTTCATACATAGTATCAAATAAATCATTAATGAGGATATCAATTTCTTTAAAATCAACAATTTCTTGAGCTACTGTTCTTAAAGACTCATGTCCATAGGTTACAACTGGTTTGACTGCCATGAGATTAACTTATTTTTTGATTGATGGCAGTTTTTTCAATCGTCAAATCAGAATCCGAAGAAATTTTTAAAACTACAGTTTTATCTTTGACTTCAACGATTTTCCCGTGAATTCCTCCAATTGTAATTACCTTATCTCCTTTTTGAAGATTCGACTGTAAGTTTTTCACTTCCTCTTGTTTTTTAGAACTTGGTCTTATGAAAAAATAATAAACGACTAAAAAAATTAGAAAAATTGGGAGTTGTGATAATAAAATTTCTAGAAAACTGGGATTATTAGTTTCGTTCATACAGAATATAAGTTAAAGTAGGTATTTTTTTTTAACAAGCTGATAAAAGATAATAGTAATGAAAAAAATTAGAAGAATTGATGATAATATGTAAAGAATTCTGAAAAAAGAATTGTCATATTTGTATATAACTTCATGCTCCCCTTTTGGAATAATTAATCCTCTAAGAACCCCATTGGTTTTGAATGTTTTTACTGGTATTCCATCAATAAAAGCCTTCCATCTTGCCGGATAAAAGATTTCGCTAAGCACTAAAAAAGAATCTGAATCTGATTGATTATTAACCCTTATTTTTATTTCATGAAGACCCCATTCAAAATCGACTACTTCTCCATCTGAGAATAATTTATCTTCAAGATCTTCTACCACTACAGTATTCAAAGGATTAAACGCATCAGCAGTAAGATAAAAGAAAAGATTTTCATCGGATTTTATTGCTCTTTTAGCAAACCAAGCTCTTGGCAGAGCATTTAAAAATTCGTAAATGTAAACATCACCGCTATACGTAACAGAATGAAAATTAGTTTTTTTTATTAAATGAAAATTTTGATTATCAATTTCAATTGTTGAGATAAAATACTTTACATTTAAAAACTTCAAAACTGGAATTGATAATAAATTATTTGAATTGTTCATTAGCGCAGAATAATGATAAAATTTTGCTGGATGAAATCCGCCTACTGACTCTATTCCAAAATATTTGAATTTTGGATCCTGAAATAATTGAGCAACCGGATATATTCTGTAAGAAGTTTTGTCCGCCAGTAAAAAACTAATTGTTTCATCTTCAGTAAAATATTGATTGAATATATTTTTTTCAATAAGCTGACTTTGTTGAGAGTCATTTTTCGAAGGGTTTATAATTCTTTTGTCAACTCTATAAATATCAATAAATGATAGAATAAAAAATAAAGCTAGAATCAAATTGGACATTGAAAATTTATTTATAATCCTATTTTGAAATTTATGTCGTAAATCATTTAATCCAAAAGCGGCTAAAATATAGAGAATGAAATTTGTTACTATTAGAATCATACTTGGAACCCGAAAACTGCTGAAAAAGGGTGCATAATCAAACAATAGGTTGTAAACGTAAGGGAAATACTTACCAAAAGATATGAGGAGACTCAATAATAAAACTAGAGCTAAATATTTCCTTAAAGAATCAAATTTCGAAAAAGAAAAGAATGCTAAAATTAAAACAAATATTCCAACATAATGAGGGAAGTCAGTAAATGGCATATGGCCAGAATAGCTCTCTCCCCCAAAACCATAATAATTAGGATTAATATATGTAATCAATTCTTTTGGATGCATTGACCAATTGGTTGCATATGAATAAAGATTATCTGATATAGAACGTATTGAATTTTTTGCGAAAGAAAGGCTAGGAAAATAAATATGGGAAGCTAAAAAAGTAGCTATAAT
>sequence46
ACAACCCTTATTAAATTTTATTCAAAAGATAGAAAAAGTGGTTGGAACAAAAGTGTCGTTGATTTCTTATGGACCTGATCGCAACCAAACATTACAAATAAAATGAGTATTCCAAATAAACCGTCACTCCTAGTAGGTGCTATTTCTCCTTTAGATGGAAGGTATCGAGAAAAAGTCGCTGAAATCGGATGTTATTTTTCTGAAGAAGCCTTAATGCGCTATCGGTTATTTGTTGAAATAGAGTATTTAATTTTTCTACATGCTTCAGTCAAGGAACTGAAACCGATTTCTTTAAAAGATCAAAAAACTTTGAAAAATCTTCATAGCGATTTTTCACAGCAAACCTATAACCAAATCAAGAAAATAGAATCAAAATCTCACCATGATGTCAATGCGGTGGTGGAATATCTATCGCTTCAAGTATCAAAGAAGATGCGTCAAGACTTAGCAGCGATGGTGCATTTTGGATTAACTTCAGAAGATGTCAATAATTTAGCCTATGGACTAATGGTGCAAGATGCCTGCAATGAAGTCCTTATTCCTCGACTTAAAGTATGCGTTAAAGACCTTCAAAAACTGGCTAAAACAACTGCCAAAATGCCGTTATTAGCTTTGACGCATGGTCAACCAGCTACTCCTACAACCTTAGGAAAAGAATTTCAAATTTTTGTCCAACGAATCAATCGACAATTATCCCAACTATCTGCGCATCGTTTGATGGGAAAATTAGGGGGAGCTACTGGTTCTTTAGCCGCACATCATCTTGCTTTTCCTCATCATGCTTGGCAGGTCTTTTCTAAACGCTTTGTCCATCATTTAGGCTTAGAACACAATCCTTTAACCACTCAGGTAGAACCAGGGGATTCGTTAGCAGAATTATTTCATTTATTAGTACGAATCAATAACATTTTCCTAGATTTATCATTGGATTGTTGGCAGTATATCAGCCGAAATCTTTTTATTCAACAAAATAACGCTAAAGAAGTTGGTTCCAGCGTGATGCCTCATAAGATCAATCCTATCCACTTTGAAAACGCTGAGGGTAACTTAGAACTTGCCAATCAGCAGTTGATTTTCTTTGCTAACAAACTAACCCGTTCCCGACTACAACGAGATTTAAGTGGTAGTACTGTGATGCGTAATCTTGGTGTAGGACTGGCTCATAGTCTATTAGGGTATAAAAGCGTGCAAGAAGGCCTTTCACGACTAACACCAAATCAAAAACAACTCCAAGAAGAATTAAATCAAAATTGGAGCATTTTAACTGAAGCTATTCAAACTATTCTTCGTAAATCAGGCGATCAATCTGCATATGACAATATTAAAAAATTATCGAAAGGAAAAATGTTTAATCAGAATGATTACATTAACCTGGTTAATTCCTTAGATTTAAATAAATCTGATTTGGAATTATTATTATCACTATCTCCTGAGAATTATTTAGGGGTAATTCATAAAATAATGGAGAAGAAAAAATGAAAAAAATTTTAATATTATCACTTATAACCTTTGCTTTAGGTCAAAACAATGTTTCTGAAAGAATAGAGTTTATGAGCGCCAATCCCTTTTCGTTTCAACAAATTATTTTAGATCTAGATAATCAAACTCCCCAAGCGGTTTTTGGTGAATTAATGTTCCCAACAGACTTTGATTCTTCCAAAAAATATCCGTTGATTATTGGAAATGCTGGAAGTTTGAATTGGGCAGAACATCATTTGAAATATTTAGAAATGTATCGTCAATTAGGGTTTGCCACCTTTCAGTTACGCAGTTTTGATTCACGAGGTGTTGCTTCTACAGTAGGAGATCAAGTCGACGTGACTGTAGCCATGGTGATTTTAGATAGTTATCGTGCTTTAGAATTATTGAGCAAGCATCCCAATATTGATGCGGAAAATGTGGGAATTACCGGTTGGAGTTTAGGAGGAGGGGTGGCTCTCTATTCGGCTTGGATGCCATTAGTGAAAGCGATTAATGGTGGAGCCTATCAATTTGCAGCGCATTTACCCATTTATCCACCGTGTTTTGTCTATCCAGTTACGGAAGAAAGTATGGAATTTACGGCGGCACCTATTCATATTTTAGCTGGAGGAGCAGATAATTGGGTTCCAGCGGTAGCCTGTAGTGAATTAATTGATCAATTAAAAGCGAACAATATTCCGGTAGATATGGAGATTACCATTTATGAAAACGCCCATCATTCGTTTGATAAAACTAATGTGCCCTTAACCGTTCGAGAAAATGGATATACTTTGGGAGATTGTCGTTTTCCTATGAATGAGGATGGAACGATTTATTATTCCGAAAACATCAAACTTTCTATCAATCAACCTTGGAAACAAAAATTAGCGCTTGCTACTTGTGCAGGAAGGGGTCCGACGATGGGAACCAATGAAGAAGCTCGTCAACAAGCTTTTGCTTACAGTGCTTGGTTTTTTACTAAGCATTTGATGAAAAATCTTGATTAAGCTTCTTTCCTCAAGGAAATAAGGGAACTTTTTATTACCTTTCGTGTTTATTATTCTAAAAAAAAGGATTAAGATGAAAAAAATTATTGCTACCTGTTTATGTATTCTCAGTTTGACTATTGCTCAAGAAAAAAAAGATTTAAGAGTTGATAATTATTTATCATTTGATGAAGCTTTTGCCATTGCTTATTTGCATTTAGGTCCCAATGCAACCTTTGAATGGAGAGGTAACATTTATTCAACTTCTACAATCGATCAGAAAGATTTAAACCAATCGATTGTCAAAGTAATGATAGAAGAAAAGCCCACAATTGCACCTTTGGTAAATAAGGCTACAGATTCTAAAAATACGGTTCCAATGATTAGTAAAACTGCTTCACCATGGGGAATATATTTTGGATTATTATCCTTGGGCTCAGAAAAAGAGGATTCGAAAAGAATCAACGGCATTAGTTTAGGATTTTCATATCAAATTGATGAAAGATTAACTTCAGGAATAGGATTCACTCAACGAGGCTTTAAACAAAGATCTGATATTTGGTATTATTATGAAGATGATTATGAAGGGGATGATGAGAACGAGTATGATCGTCACATAGTGAGTCAAAATGATGATGAAGATGAATGTTATCTGGATTATTGTCTTGGCAACAATTTTTTTGAAACTTATAAATATTCTGGAATAGAACTCTGGACTAATTACGATTTAATTTCAACTCAAAATATTTCAATTTGGTCTGGTTTTTCGTATAGTTATTTATTTGAAATGGATATGAAGAGTGATTTTTTCGAGGATGATATCAAATATACCAGAGATCAATCTGAGCATGACTATGGATTGACATTAGGTTTAGCTGCAAAAAATAAATTATTCTCTACAAAGTTATCTTATTATAATTCACTTTCTGA
>sequence47
GGAGATGATGAAGCAATTGCTGAATATAAATTTTGGGTTAATGGAAGTTACGCAGCAATGGCTGGGTATCCTCATGTGACGATCCCCTTTGATTATGTGGATGGACTGCCAGTAGGAATGTCTTTTATTGGATCAAAATGGAATGATAAAAAATTAATTGAATTTGCTTACGCTTTAGAACAGTTAATTGAATTTAATCCCAATCCAAATTTTTAAGACTGCACGATTATTTCCATTTAATATTACAACCCATAGATGGATATTGATGCTTAGATATTGGTTTACTGATTAAAAGATTGTTCATCGCATCTCTTAGATCTGATCCTGAAACCTCGATTCCGTTTCTAGGTGAAGATTCATCTAATCTTCCTCTATAAACTAATTTATCTTGATCACTAAATAGATAGAATTCAGGAGTGCATTCTGCCTTAAAAAGTTTTGCAACCTCTTGAGTTTCATCATAAAGATAGGGAAAAATTAAATTGAGATTGTTAAAAAGTTTTACCATCTCCTCCGGACCATCTTGGGGATGAGAAACAACATCATTTGAACTAATAGCAACAAAATCAATTTGAGATGAGAATTCTTTTTGTAATTTTTGCAATTCAGAATGATAATGCACGACATATGGACAATGGTTGCAAATAATCATGACTAATGAAGGTTTACTATTCGATAAATTACTAGAATGATACCAATTGTCGTTTAAGACATTTTTAAGCTTAAAATCAGGGATTCTAGTACCTAATTCAAGCATTGTGGAATATGTTAGAGCCATACTTAAATATAAGTTTAAACAAAAATGGTTTCAATTAGTCTTAAGTATTTTTACTAAAGTATGCTTATTTTGACAGATGAAATTTTCAAAGAAAAATATTTTTGTAACTACTTTCCTTTCTTTATTGCTCCTTTTAACTGTGAGTGAATATTGGAAATGGTGGTTGATATTTTTTTCATTTATTCTACTTAAAGGACTCATTGACAAATATAATCGATTCTATAATCCCAATTTTTTGTTTGATGGAAATGATAAACTTTTCAAGAAACTAGCTGCTGAATGTCAAGTATATGGAGAATATGGTTCTGGGAAATCTTCATTATGGGTTTTCAATAATTTCAAAAAACCAATTCTATCTGTTGAAAATAATAAAGAATGGAGTGATAAGGTTTTCATTCAGCTTAATAATTCTTCAACAAATCATTGTGTCTTTGTTGATTGTGGTCCTGTCAAAGAATGGAGCTATCCCACAGATGACTCAAAACAAAACAATTATCTAACATATTGTCAATCTATGTGGAATCAATCAATTACTCCTGATTTTATTCTTATTGATGGAAGATTTAGAATTAATTGTTTTTTACATTGTTTGAAACATGCCAAAGAAGGAACAAAAATCCTATGGGATGACTACTTGAATAGAACAAATTATCATATTGCTGAAGAATGGTTACAGCCCGTTCAAAGAAATTCTAGACAAGCTTTATTTGTAATTCCAAAAAAGGAAGATTTAGCGAATTTAGATTTTGATCAATTAATTGATGAATATCAATTTAAAGTGGATTAAAAAGTTATTTTTTTATCGCTTCGATATGTAAAATAAGATCAATTTTGTTATCAATTTTAATCGTTAATAATGAAGGTCTTTTAATTTTGAAATCTGATAACTGAATTGAAAAATTCGCATCTATAATGATTCTATTATCAATTAATTTTATTTCAGCCTCCACTTCCTTCTCTTGTGAAATTCCATGAAAAAAAATTATACCTTTAACAAAATATTTTGAGTCTCGTATTTCAATAGATTTTGAGTCAAAAGAAACATAAGGGAATAAGTAATCTTCAACGACATCAAGCATGTTTGAATCACGGTTTGAATTATTACTATCAAAGCTTAATAAAGGTACGTTAATGCTTGTTTCAAAGCTTTCTAAATTCTCTGGATTGAAGTAGATATTTCCTTCAAGTTTATTTGATGATGCTGACCAATTGTGAGCTATATGTTTGCCATAATAAGTAATAGAACTTCTATTCTGATCTATAGAGTATTCAATTTGTGAAAAAAGAATACTAAAAAAGGAAATGACTAAAATAATTTGTTTCATTTAAGAAAACTAATTGATAAGGCATCTAAGCTCAATGCAAAAAAAGCAACTGTACCAGCTTTGAGATGTAAATCCATTAATTCATTATATTTTTTCCCATTCTTTACAGCATTTTTTGCTAAAAAAGGTTGTGCAACCATTGCAGTAAAATGAATACCTGCTAAAAATCGATGTATTTTAATCGAATTAAATGAATCATTATATACTCTTGCTGGAGGAGAAAAAATTGACAAGGAAGCGGTTGTCATATAGGTTGCGTACGTTAAGTAACCCATAGCCTTATGTCTATCGTAATGTGAATCCCAATAGTTATTGTCATTTCCATCATAAAGTTCTTTTCCAACTTGATATTGATAAGCTAAACCTAAAAGTGTAGTTAACCCTAACCATTGATGAGCTTGAAGCATTTTACGTCTTAACTTTAACTCTTCAATCCTATTATCAGGTCCTATATTTAATTTCTTAAATAAACCTTCTTCTCCCCAAATTTTTTCTTTTATAAGTGGCATATTATCTGGGTAACCTAATTCAGGAGCTTTGAAACGTCTTTCATAACTTTCTTTATTGACAACTGATTCTTGACAAAATATGGAGCTAAGACAAAGTATTATTAATAAAGATTTTATAAGTATTTTGTACATTATTAGTAAATTTACATATGAAAAATAAAAATATAACTTCAAAATGCAATTGTAGCTGCGAAGAAAATATCAGCAAATCTAGAAGAAAATTCCTTAGGAATGCAGCTCATATCACCATAATCGGTGGTACTGCTTTTGTTCTAGAAGCTTGCGGTTCTAGCAGCTCTTCTCCAACTGGACCAACTGATCCAGGAGACGGAGGTGGAAATGGTGGTGGTTCTGGTGGTGGAGGAAATACGGGTACAGGATATGAGTACAATTCTTCTACTGGAATTATTACAATAGATATTTCAAGAATTTATACTTCTCTTCAAAATACAGGAACCGCTATTGCTCTTTCTGCGTCAAACACTTTTGATAATCGAGGCTTGATTGTGATACGATCTGGACCATCTACGATTACTGCGTTATCAAGAAGATGTACTCATCAAAGTAATACCGTCAATGTTAGCGCTAATAACTTATTGTGCCCTAGTCATAATTCAATATTTGATTTTAATGGGAATGTAATATCAGGTCCTGCAACC
>sequence48
ATAATTTGGATCGGTGGTATTAATCTCTTTCGACCAGTCATAGGAAAATCCTAATTGATTGATTTGTCTTTTGAAATTAGAGATATTTTCAGCTGTAGTAATTTTTGGATGAGTTCCGGTTTTAATGGCGTACTGCTCAGCGGGTAAACCAAATGCATCCCAACCCATCGGATGTAAGACATTGAATCCCTTCATTCTTTTAAAACGAGCTACAATATCGGTTGCCACATAACCTAGAGCATGCCCAACGTGCAATCCAGAACCCGAGGGGTAAGGAAACATATCTAAGACATAATATTTTGGAAGTTTTAAATCTTCAGAAGTCTTAAAAACTTGATTTTTAATCCAATAGTCCTGCCATTTAGGCTCGATGGTTTGGTGAAGATACCCCAAGAGCTTTAATAGAAGTTTTTAATTTGTTTAGCCCAATCTAAAATGATAGCATTAACGTCAGTAGGAAGATCTCTAGAAGTATTGTTATAGGAACTACTTGTCGTATTTCCAAACGCTTGCGACATAGGTCCTACAGAATCATCATCACTGACAATAGAGATAGCAAAGAACTTAGCAAAAACTTTTTTACTCGACGGATCTCTAAAAATGATATAAGATTGTTTAGGATCGGCAGTTGATCCGTAATAAGGATCAAAATTAAAGTTCTCAAAATTAATTTCTATTTCCACATCTCCATCAGTATCTGGCGGTAAAATCTCAAAACCGATTTTCACTAGTTCAGATTGTAAGGTTTGGATGTGCTCAATCATAAAAGGATCTTGCACGTAATCATTGATAAACTCTTCGACTTTATTCGTTTGACTTAGTTTGACTTTTTTACGACGAAATTGACCATGTAAATCAGTGGTAAAGACAAATATTAGAGCTAAAATTAAACTATATTGAAACCATTTTCTCATTTTACACTCTCCTTATATTGCGCAACCTGTTAAGCCACGTTTTTTATAATAATCTTGATGATACTCTTCTGCATCATAAAAATCGGATTTATTTGTCACTTCTGTGACAATCTTTGATGAAAACTTTCCAGATTCATTCAACTGCTCTATCACAGACTCTGCTGCGGCTCTCTCAGTTTCATCTGCAAAATAAATGGCTGAACGATATTGAGTTCCTACGTCTGGTCCCTGACGGTTTAAAGTTGTTGGATCGTGACTTGTGAAAAAAGTACCCAGTAATTGCTCATAAGAAACAACGGAAGCATCATAGACAACCTTTACAGCTTCTGCATGCCCAGTGATACCTGTACAAACCAGTTCATAAGAAGGATTCTTGACTTTTCCACCAGTATACCCCACAGTGGTTTCTTTGACGCCTTCTAAGGCTTGAAATGAGCTTTCAACGCCCCAAAAACATCCAGCTGCAAACACAGCTTCTTTTATTGTTTTCTCGTTTGCCATCATCTTTTCTCCTAATAACAATACTAAAATCAGTAAAATTAAACTTTTATTTTTCATATGCATTATAAATCCAAGCTCCAAAAATAGCCATAGGTACTGCAATGATAGCTCCTATGACAGGAATTAAAAAAGATGTTATGAAAAAAAATAGTGCAACACAAGCGGTGATTCCAATGTTTTTCACAGAATTATGCCACTGTTTGAGCTTTCGATGCAGCTCGGGAGTTCAATAAGAATGCTAAAATAACGGATGCTACTGAATGTGAAAGAATAAACAGATCGAATTTAGTAAAATATTCTAATTGGAATAAAAACAGCATGGTGATGGCTCTCAACAATTCAAATCGATAGGCAAAAGACTTTCCGTCAAGGATAAATGAATTGGAAATTGCTACAAAAACGATAAAAAAGATAATCGATAGCATCTGACTATAGTCGAATAAATTAACATTGAATAACATCACTAGAGTCATTGAATTAATGACGAAGAATTGGAATAAGGCAAAAATCTTCCCTTCCATCATGATTTGAGGATCATGTTTCTCAAAGTTTGATAAGTCATTTTTAGAAATAGGATATTTTTCAGCAACATCTGCTGGTCTCCAGGCTGGAGGAGAAAACCATACTTTGACTTTGTCACTCCATTTTTTAGTACGGATTGAATCCATTAACATTTGGTAAAATACTTCTATATTAGCCCAGAATGGATTAAAGGTTTTTAAAGGTTTCACTGTACCGTAAACAGGCTTTAAATCTTCTCTTTCATCAATAAACGTTCCAAACATTCGATCCCAAAGAATGAAAACACCTCCATAATTCGCATCTAAATAATCATCATTTTGTGCATGATGTACACGATGGTTCGATGGAGTAATAAACACATATTCCATCCATCCTAAACGACCAATATGTTCTGTATGTACCCAGAATTGATAAATTAGATTTAAACCAGCAACCGTGACATAAATTGCAGGAGGAACACCGATAAGAAACATCGGTAAGAAAAAGACCCATTTCCATAAAAATCCGGTGCTAGTTTGACGCATAGCAGTCGATAAATTGAAATCTTCTCCATGGTGGTGCACCACATGAGTTGCCCAAAATAATTTGACTTCATGGTGGATGCGGTGCATCCAATAATAACATAAGTCATACATTAAGAAGGCTAAAACCCATACCCAAATAGCATCAGTGCTTAATAGTTTTAAATTATACTGTTCTGCAACAATCGTATAGACAACATATTGAAATCCTAAACCCAATAAAGGAACAAAGCGACTAATTAATCCTAAAGACATACTAGTAATAGCGTCGTTTAGTCGATAATTATTGTTTTTGGTAAAATATCCATATAAAAATTCGATTAATACTAATCCGAAAAATAACGGAATTGATAAGGTAATAAGTATTGACGTATCCATTTAAAATGAATTTAAATTATTTTGAAATAAAAAAAGATAAATTTTAATTACGATTTAAATCAGCCAGAATTGTTTTTAACTCTTGTCGAACTTCATGTAATATTCTCTGATCAACTTCGACAGAATTATTTTGATTAATAATAACTGTTTCCTCTTCAGAAGAATCCTTAAGCTCTTCAATGGCACCTTTAATGGTAAATTTTCGGTCATAAAGTAATTCCTTTATTTGAAAAATAAGATCGATATCTTTTTGACGATAAGTTCTTTTTCCCGCACGATTTTTAGTAGGGTTTAAAGTTGGAAATTCTGACTCCCAATAGCGTAAAACATAGGGTTTTAAACCAGTCAACTTTCCTACTTCTTTAATGCTAAAATAT
>sequence49
TATTGATAGCATCTTTGATTTCACTCAACGCTTTTTTTTCTGCATCTATAATTGATTCTAAATGATTTGCGATTGGAAACGTAATTTTTGGATTAGAAATTCTAGGCCAATCAAACTTTGGAAAATACATAGTTTTTCTTTTATCAGGAGAATCGGTCATAGACATGGTATATCCTGTTCTACCATGAAAACACTCTTTAAAATGAATTACTTTTTCTCCTTTTGCTAAACTCCCTTTGGCCATATTCTTTCTTCTTTTCCAGTCGAAAGCGACTTTAAGGGCATTCTCAACAGCTAATCCTCCACCTTCAATAAAAAATGCATAGGGAAGATAACTGGGTTGTGCAATTTCACGAAAAGTTTTTACAAATTCAGCCATTTGTTGAGAGTATACATCTGAATTAGTTGGTTTATTGATTGCAGCAATTTTTAATCTTTCAGACTGATCTAAAACGTAGGGATGATTATATCCGACAGACAAAGAAGCAAACATTGAGAATAAATCTAGATATTCTTTTCCAGAAACCTTATCAACTAACCAAGAACCATGGGATTTTTCTAAATCGATGATTGGAGTCATTCCATCAGCTAGCATAGACTTAGAAATTTCTTTACGAATATCTTGAGGATTCATGGAGATTATACCTCATTTTTCTCAGGATTCTTGAATGACCAGAAACCTAAGACAATCACAATAAAAACAAACATCCAGATAGTTGCATAATTATAATCAGCACCTGAAAAGTTAATTAAATCATTAAATCTACCAATTAATAACGAGATACGTCCCATAACTGCAAAACCAAAGGAAGCTCCAAAGCTAATCATTAAGAAATAAATTCCTAAACGAGTTACTTTACCAAAAGTACCTTTTTGCTCTTTGGAGAAATAAAAATAAAGTAGAGCGGAAATAGTTCCAATAATGATAATTAGATTATTAAAGATACTGCTTCCTGAAACAGCAAACCATGGAGTATTTCCATCAAAAATTGGTAATGCAGAAGAAGCAACTTGTTCTATTACATTTGATTTCAAATAACCAAAAGCTTTTAAACCTGCGGCAATGCCTACTGTGTAGGCGATTCCCCATCTAGCCATCCAGTTAAACTGTTTAGAAACACTTAACAACATCATTATTCCTAAAATCAAAGGTAAAATATAAATAATGCTAAACTCATGACCCTTATCAACGACCCAGAAATTACTGAACGGCCCATCGGCTGGAAATAATCTACCAAAAAGATTTGGATAGATTTGAGTCCAATAAAATGTTGCAGCCCAATAAGCGGCAGATACACCAACGAAAACGTGCTCAGCAATACGATAGAATGGATTATCTCTAAAAAGGTATGAAAATATACCTAAAGTTAAAAAAGCTGCTATCCAGGCGCCAAATAATGAAGAAAATAACATGTTAATACTTTCTCTCCCTTCTATCTTTTATGAAATAAGCAAGATTTCCAAGAATAATAAATAAAATGATAACAATATGACCATATGATTGAGCAGCCATACCACTAGTAGCAATACCTTTTTTCCCTACCAAAGCTTCATACTCAGCTGCACCAGGCATGCCCGCTAAAATTCCTTTTAATTGACCACTCTGAACATAAGGTAAAACTTCATTGACTTGAATTGATGTTGTTCCAGATGATAATGGAACTGTTGTTGGGCCGTATAAAACCCATTCTAGAGATCCTGGATACCCAGCAGAACCACTAAAAATAAAGTCAAAATCTTCCAAACTATTGATACCTTCCATCATCGGGATATCATCTATAGAAGTTAGATCTGCATCAACTGTATAGACCGCACGTAAATTATTTTCAAGACCCTTAATGACTGCCTCATATCCAGGCCTAAAACCTAACAAAACGTAATCTTCATACTTTTCTAATGAATATTCTGCATTTATAGTTTTCAAAGCGTCTTTAGCCATATACAATCCATCGGGCCACAAACATGTAATATAAATTTTATGTCCTCTTTCTTGGTCTAATAACTGCCTCATAACTCCAAGAGTCATTGGATGAATTTCAGGTCTCGTACTTGGACCGTAATCAAAAGAAATTAATACTTTCGAATTATCAGGAATGGAGTCGATAGCATCATATACTTGTTGGGATGACGGACCCGGTCTTATAGGCAATTCAACAGGACTTAAAAGAGGAATTAAAACAGCTAAACCAATAATCAAAAAAATTACTCGTCTATCAATTGATCCAAGTTTTAATAAAATATTCTCTAACTTTTCCACTATTGATCTCCAATGTATGATTTTTCTAGTCCAAAGATATATCTAAGACTGGTAATGATGATTCCTAAACCAATTCCAATCATAATTGCTCTAGCTCCAGCTACATTTGGAACCATATAAATCCATTCTTGAAGGGCAGGTAAGAAAAACATAGTCGGCTTATCTATAGGCCAGCCCATTTGCATTCCTAATAAAGTGACAGATAAAAGACCAAATAAAACCCATCCGAAAATAATTCTTCTATCTCTAACTAAACCGCTCAAAACTACTCCAATACCTAAGACAGTAAGATACATCACAAACCAACTTGAAATAAGACTACCGACCGGCACTCTTCCAATCATAATGATAATTCCTGCTAAGAGAAGTAAGGTTGCTTCAAAATTTCTAGCTTTGAATGCTCGATAAGAGGCTGATGCAACAAAAAATGCTAATAAAGCAAACATCGTAGCAGATAATGGAGTAAAAATATTATCAAACATCCATTTAAATAAACCGCCAGAAGTTTGAATGTGCGCACCCCAAGGGGTAGGAACAACAGAAGCATTAACACCTAAAGCAGATAATTGTGAAACAAAATCATCAGCACCTGAGTCCGTATAAAAAGGAACTTCAATTCTAAACGGATTCTCATTGTTTATGTCAACAAAATATGAAGAATTTAACTCAAGAGCTGTCGTTTCATTGACTAAATTAATCATTGGATTGGGATTCGAAGGAACTGAACTAATTTCGACAAAAAAAGCACCTCTCATAAAAAACCCAATTACAAAAACATATAAAAATGAAAGTATCGCAATTAAACTATACTGCCAGCCAGATTGGCGTTTTAAAACTTTTAAAGATTGTAATTTTAATAAATTTAATGCTCCTAAAAAAATCGCAAA
>sequence50
CATTCAAAATCAAAAGGACATATTATTTTTGGCGATGATTTATATGGAGGGGGGATAAGTAAAGCCAAAGAATATTCAAAGGAGATTTCAGATAAAATGATTGAATATGCTTCCCCCGTAGCAGGACATTTTTTACATGCTACTTCGATTTCATTTATTCATCCAGTTCTGAATGAAACAATGACTTTTTCAGTCAATCCAGATAATCAATTTCAAAAGTTACAGAATGATATTTTAAGTGAAACAATCTGATCACAATATCCAAGAATTTCTTACCTTTTTGAAATATGAAAGAAGGTTCTCCTCGAAAACCATTGAAGCGTATGGTAAAGATATTGAGGACTTTACCAGTTTTGTTCAAAAAAAAGGAAAGAATTTTAATCAAGTCAATAAAGATCTCATTTTTGAATATCATCAAGATATAGAATTACAAATTAGTCCTAGGACTTTTTCTAGAAAACTTTCCTCTTTAAGAACATTTTTTCGTTTTTTGAACCATGAAGGTATTATTAGTGATACAGTTATGTTTGAAGTTAAATCTTATCCTTCTCCAAAGTTCAAAAAGCACATTCCATCCTATATATCCAAAAAGCAATTTTCACAATTAATAGAGGATATCAAGGAGAATAGTTCTTTGACAGATTTTGAAAGATTTAGGAATTTATCTATTCTAAGCCTGTTCTTTTCTTCGGGACTTCGTTTAGAAGAATTAACAAGTATCAAAAGATCTGATGTTGATTTTCATTCCAATACGATCAAGGTATTAGGAAAAGGTAATAAAGAAAGAATCATTAATTTTGACAGCTTGACGAACGATTTTTTGAAAAAATTTATTCAAATCTTTGACAGAATCGACTTGAATAAAATCAAAGTGAGTGATAACTTGTTTTGCAAAAAATACAAGAATGAATTTTGTAAATTGTCAAGATTTAACATTCAATATATTGTGATGAATAGTTTAAAGAAATTAAATATTAATTCTGTAGGTCCTCACACCTTGAGACATTCTTTTGCAACGCATTTGTTAAATAGTGGTGTTGAATTAAATGCAATTAAAGAATTAATGGGTCATGAAAGTATTTCATCGACTCAAGTATATACCCATGTTAATATTGCTAAACTTACGGAAGAGTTAGAAAATGCTCACCCTAGAGGTAAAAAATGAATTTAGAATATCTAGGAATATCTAATAAAAATTTTATAGTCAATGCTTCCCCAAAAGCTCTAGTTAATAAAGCTATTAGAGATAATGAGGGGGTAATTGGTTTAAATGGTTCTTTAATGGTGGATACAGGTGAATTTTCTGGAAGAATACCTAATGATAAATTTATAGTGGATAATCCTGATTCTTCTGACAAAATATGGTGGGGAGAGGTTAATCAAAAAATTTCTTCTGAAAATTTTGATCATCTTTTACATAAAGTAGTATCTTCTTATAATACTCATGAAAATACTTTTCATATTTTCGATGGTTCAGCTGGAGATTCTAGTCGCTATAATTTCAGAGTTCGTTTCTTGACCAAAAAAGCTTGGCAATCTTTATTTGTTAACAATATGTTTTTAAGATATCGACGCGAGAATGAACTTCAAAATTTTGAGCCTGATTTTACTATTATCAATGCCTTTGATGTTAAAGAAAAAGACTGGAAAAAATACGGACTAAATTCTGAAAACTTCATTGTGTTTAATATTGAAAAAAAGATTGGAATCATTGGGGGTACTGAATACGCAGGGGAAATGAAAAAAGGTATTTTTTCTATGTTGCACTATTATCTTCCTCAACAAGGAGTATTCTCTATGCATTGTTCTGCAAATGTTTCTGAAAAATTTGATAATACTGTGATCTTCTTTGGATTATCAGGAACAGGGAAAACTACCCTAAGTACTAATATGAATCGCCCACTTATTGGTGATGATGAGCATGGTTGGTCTAATACTGGGGTTTACAATTTTGAAGGTGGATGCTATGCTAAAGCAATCAATTTAGATAAAGATAAAGAGCCTGAAATTTATAATGCTATTCGCTTTGGAACATTATTAGAAAACGTAGTTTATGATCCTAATACCTACAAGGTAGATTTTGATGATAATTCTAAAAGTGAAAATTCAAGAGTCTGTTACCCAATTCATTATGTTGATAATTCTCTTGCGTCACGTGGAAAAAGAAGTTTCGGTCCTCACCCAAAATCCATAATTTTTCTTACTTGCGATGCTTATGGCATTATGCCTCCTGTGTCACGCTTAACCAAAAAACAAGCGATGTATCATTTTATATCAGGGTATACTGCAAAAATGGCAGGCACTGAAACTGGAGTAAAAGAGCCAAAAGCTGCATTTTCCCCCTGTTATGGTGGACCTTTTCTTACACTTCATCCTTTAAAATATGCTGAATTATTAGAGAAAAAAATGGATGAACATAACTGTAATGTTTACATGGTAAACACTGGTTGGTCTGGATCTTCAGCATCCATTGGTAGTTCAAGAATTTCTTTGAAAGATACTAGAAAAATAATCGATTCAATTATTAATGAAAGTCTTGATTTTTCATCTCCCATAAAAGATGATTTTTTTGGGTTTGAAATTCCAAAAATCGAAGGATTTAATGAAGAATTTCTTGTTCCTCTTAAAGCATGGAAAAACGTTGATGAATATCATCAAGTTGGTTCAATGTTAACAAAGTTATTTGTGAAAAACTTTGAAAAATATAATATCACTGATCAAGAAATTCTGAATTCTGGTCCATCAGTAAAATAACTTATCAAATCACGACACGATTTTTATTGATAGACTTCATATTTATTAAATGAATTTTTAAAAAAAGGAGTAAAAATGGCAACTTTAATTTTAAGAGATACTCATAGAGCTCTTGAAAATGAAATGAAAGAACTTGAAAAGCAGAAAAGAGAGAATTCTGTTCAAATTAAAGAAGC
>sequence51
GCTGAGCAGTACGCCATTAAAACCGGAACTCATCCAAAAATTACTACAGCTGAAAATATCTCTAATTTCAAAAGACAAATCAATCAATTAGGATTTTCCTATGACTGGTCGAAAGAGATTAATACCACCGATCCAAATTATTACAAATGGACGCAGTGGATTTTCTTGCAACTGTATAAAAAAGGCTTAGCCTATGAGGAGGAGGTCGCTGTGAATTGGTGCCCAGAACTTCGTGCCGTTCTAGCCAATGAAGAGGTTGTCAATGGAAAATCTGAGATAGGAGGCCATCCTGTTTATCGAACACCGATGAAACAGTGGATTTTAAGAATTACGGAGTATGCTGAATCACTTTTGAATGGGTTAGATGACTTGGATTGGCCCGAGAATATTAAAGAATTACAGAGAAATTGGATAGGGAAGTCTGAAGGGGCAGAGGTTCATTTTTCCGTCCTTAATTCCCCTCAATCTTTAACCGTTTTTACCACCCGACCTGATACGCTTTTTGGAGCTACTTATATGGTCATTGCTCCTGAACATCCATTAGTACAAGATTTAACCACTGATGATAATAAAAAGGACGTGTTAGATTATATTGAGAAAACTAAGTTAAAGTCTGACTTTGATCGCACAGAGGTCAATAAAGACAAGACAGGTGTTTTCACCGGTTCTTACGCAGTCAATCCTCTATCAAAAGAGCATATTCCTATCTGGATAGCAGATTATGTACTAAGTACTTATGGAACCGGCGCAATTATGGCTGTCCCGGGTCATGATGAGAGAGATTGGGAGTTTGCGAAAAAATATCAATTAAAGATTTTAGAAGTAGTTAGTGGAGGAGATGTATCAAAAGCTGCTTATATCACAAAAGAAGCAGGAGAAATTGTCAATTCCTCACACAAAGATACCCTTTCTATTGATGGATTAACGGTAAGCGATGCTATTAATATGGTCATTTCTTTCTTAGAAAAGAATCAACTAGGTCGACGCAGTGTCAATTACAAATTAAGAGATTGGCTATTTTCTCGCCAACGCTATTGGGGAGAGCCGTTTCCCATTATGCATACGGATCAAGGAGTATCTCCAATTGATGAAAATCAGTTACCGGTACGATTGCCTGAAGTTGATAATTATAAGCCATCTGATGATGGAAAATCACCATTATCAACTATTAAACAATGGGTTGAAATAAAAGATGTAAATAATAATATAATTGGACTTAGAGAAACAAATACTATGCCTCAATGGGCTGGTTCTTGTTGGTATTATTTACGTTTTACCGATCCCCAGAATTTGCAGGAAGCTTGGGATAAAAAAGCCGAGAATTACTGGATGCCAGTTGATTTGTACATTGGTGGACAAGAACATGCGGTTTTGCATTTGCTTTATGCTCGTTTTTGGCATCATGTCTTATTCGATTTAGGGTTGGTTTCAACGAGAGAACCCTTCCAAAAACTTTATAATCAGGGTATGATTTTAGGTGATGATGGCTCTAAAATGAGTAAATCTCGAGGAAATGTGATTAATCCAGACGATATCATTGAAGAATATGGCGCTGATTCAATGCGTTTATATGAAATGTTTATGGGACCGTTAAATAAATCTAAACCGTGGAATACCAAAGGATTACAAGGATGTTATCGTTTTATCAATAAATTATGGAACACGCTTGTTGATGAAGACGGAACCTTATCGTCAAAGATAAAGGAAATTCAAGCATCGAAAGAGACGTTGTCTATTCATCATACCACTGTCGAAAAAGTCGGACATGACATAGAAAATTTACATTTCAATACCGCAGTATCTCAGTTAATGATTTATGTTAATCATTTACAAGACTGTGAAGAGATTTCAAAAGAACTGGTTATAGATCTATGTAAAATTATTGCACCTTTTATTCCACATGTAGCAGAAGAAATTTGGCAGTTATTAGGTAATACTAATACCATTTCATATGAGCAATGGCCTAAGTTTGATGCTTCTTTAACAGTGAAGGATGAGGTAGAAGTTGCGATACAAGTCAATGGTAAGTTAAGAGCTACAATTACCTTAGATATTGATCTTGATCAAGAAAACGCTGTAAATGCGGCTTTACAGCTCGAAAAAATCCAAAGCTATACCAACAATGGTCAATCGATCGTTAAGACCATCTACGTACCAAATCGTTTAATTAATTTTGTCGTAAGATAGTTTTTTAGAAGCTGTCATAGTCCAAACTGCAATTACCAATACTAAAACCGCAAGTTTTTGAGCTGTGGCATGCAATCTTAAGGCTTGATAGTCCATCCAAGGTTGTGGACCATATTCTAAGAAAAAGATATACAACCCTATTAAAATAGTAGAAATTAGTAGAATTCTTGCTACAAAATAGTCTTTAATCCTGAAGAAAAACCAGGTAAATAAGGCCAAAATTTTTAAATCAGTATAAAAAACCCAATAGGCAAAGGTATTATGAAGCAAATACAGTGATTTTACATCTGCGGGTGTTACTATGATACCAATTGTACATATTATACCAAACAAGGCTAAAAGTTTAGCAATGATATAAATACGTGGAAATTGAGGTTCAAAATAATTAGCGCATAAGAAAAAAAAGTGATATGCACCAAATCCCAATGCTGACATGCCTATGAAAAAATAAATGAATGAAGTAATATTTGAATTCCCTGAATGTGACGATATACGACCAAGATCACTTAAAAAATTTGTAGTAAAACTGTATGAGGTAGTATCAGTAAAAATATAATTTCCGCCACCATAAAATAATGAAGCCATAAAAAGGGAGGATAGAAATATTATGAGAAGAAATCTTGTTTGTTTTACTAGTGTCATATCTACTCTATATACAATTATACATAATATATATTA
>sequence52
CTGTTTTCAAAATCCCAAGCTTGTTGTAAGCGCTTGTCGGATCCTCCATAGCGTTGAGCGGCTCGGATGGTGTGTGCTTGACAATAACGACATCCAGCGGTGTTACTACTGATATAGGCAATGATACGCTTGAATTCAGAGGAAATAGACCCTGCATTATCCATCACCGCTTTATTGAGATTGATAAAGGCATCCGCCATCAGAGGCTTTTTATTCATGGTTAAGACAGAATTAGGGCAAAATCCTAAGGTTTCATTAAAGAAGGTGACAAGTTGTTTGGTCGATTCATCCTGAATCTCACTTATAGGATGAACTAAGGGCATTATTCCTCCTCTTTGGAATTGAAAGTTTCTAAACGTTCAATGACAGGTTTCACATCTAAGTGAACCGAATCTAAATCGGTTAAATCCTCTGGTAAGTCTTGAAGTTCTTGAATATCCCTCACTGAAGGCTTTAATCGAGCGTTATAAGAGGATACTGAAGTGTTATAGGCTTTTCCTAGCGAGGTAATACGATCCCCAACCGTATTGTATAATTCTTCGTATTTTTTAAGTCGATCGGATAAATCTTTGGCGGTGTTTATTATACTATTCGCATTTTTGGTTAAAGACATCTGCCTCCAGGTTTCACTGACTAAATTCAATAAAGGCATTAAGGAAATTGGTGAAACGACAAAGACTTTAGTTTCAGCGCCATCATTGAACAAATTTCCATCGTGTAATAAAGCAGATTGAAAGCCTGGTTCAAAGGGAATTAACATCACCACAAAATCAATGGGGTCCTTATATTGCTCTTGATATTTCTTTGACGATAAGGTGCGCATATGTTGACGACATTTTTTAGCATGCTCTACTTGTAGGGCTTTGCGTTTTTCAGCATCTTGCTCCTCAAGTGAAGCACGAAAATCTTTCATCGGACATTTAGAGTCCACAGGGATAATTCCTCCGTTGGGAAGCTTAATAATCATATCAGGGATGGAATCTCCTGTTTCGGTTCCCTTCTGCTCTTCAAAATCCACATGATTGATCATACCGGATTTTTCAACAATATTTCTTAGTTGAATTTCACCCCACTTTCCTTGTACACTGGTTGAAGAACTCAGAGCTGCACTCAAAGTATTGGTTTCTTTCAATAAATCGGCTAAACGGGTATCCAATTGACCAATTTCTTGCTTACGTTCTTTTTGTAAATATTCGATACGATCATCTAATTCTTTGACGGTTTTGGAAATGGGTTCAATAGTCGTTGTGATATCTTTTTTATAGATTTCCCAATCTTTTTGCTGAAGTTTTAAGGTTTCTTCTAGGGCTTTTTTGGCTGCTTCTTCTGCAGCTTTCGAGGCGATATTGGTAAGATTCTCCTCTTTTAACTGGTCTTTTTCAGGATCATTGGAACGCATATTTTTCAATTCATTGAGAAGTTGATAGAGTATGACACTCATTCCTAAAACAAATAAAGTGGTAAATAGTATGATAAATGTATTGAGCATAGTCAAAGCTAAGGATAAAAACAGAGGAAGAAAATTAAAATAATAGGGATTGAATTACTTTTCGTAGACCGCATTATGCGTTTGAGTGCAGCGGATAAAAGTGGTTCGTTTACTCAATTGCTTGAGATTGAGTGCACCCACATAGGTACAAGAACTTCTTAGACCCCCTAAAATATCTTGAACGGTATCTTTGATAGAGCCTTTATAAGGGACCAGTACTGATTTTCCTTCTGCCGCTCGATAATTTTTTAAACCGCCATAATGTTTGACATTAGCACTTTGACTGCTATTTCCATAAAACTCGATAAACTTCTTTTCTTTTATGACTTGTTGATCGTCGACAAATTGAGAAGTTAAATAACGTTTGGTAATGACTTCACCGCCTCCCTCATCATGGCCAGAAAACATCCCTCCCAACATCACAAAATCAGCAGCTGCTGCAAAGCCTTTGGCTACATCTGCAGGAGTGGTACATCCTCCATCGGCAATGATATGACCATCTAAACCGTGAGCAGCATCGGCACATTCAATCACTGCAGATAATTGAGGATAGCCTACTCCGGTTTTAATACGAGTGGTACAGACGCTACCTGAGCCAATTCCCACTCGGACAATATCTGCACCCGCTAAAATTAATTCCTCTGTCATCTCTCCAGTGACGACACTGCCCGCAATGATAACGATTGAAGGGAAATTTTTACGCAATTTTTCAATGTACTGAACAAAGAGTTCTAGATAACCATTGGCAATATCAATATTGATGAATTTGATATTCGATCCACAGGCTTTATAAAGGGTTGAGAAGTTTCGATAATCCTCATCTCTGATTCCAAAACTAACAGCCACATGTTCCCTGCGTAACTCATTTTCTTGAGAAAAATATTCCTTCAATTCATCCACAGAATAGGTTTTCACTAAACAAGTAAATAAACCTAACTTGGAGAGGGTATCTGCCATTTCAAAAGTCCCCACTCCATCCATATTGGAGGCCATAATGGGAATCCCTTGATAATGAATGGGTTTTCCAGAAGGAGTTAACAAACTTTCAGAAGCGCTTTGATAATTACGGAAATTATAAGTACGATTTAAATCCACTTGTTTACGAGAAACCAATGTACTTCGCTTAGGTCGAATCAGTACATCTTTATAATCTAATTTTACTTCTGTTTCTAAACGCATTTAAATACTCAATGGGTTGTGAAAAATGCCTTTTCCAC
>sequence53
CCCCAAAACCCCAAAACCCCTTTGTATTGGAAAATTTATATTTTTGTATTTTTATCCAAAATTGACTAAAAAACAAATTTTTCGCATTTTTCGATTATCTATTGTTTATAATCCAATTTTTATTTGATTTAAATTTTATTTTTTGTCAGAAATTATATTATTGATCCTCGCATACTAATTATACTTAAATTTATAATAAAAAATAAATTTTGATTAGAATAATGAATACGAATGGTTACGGGCACAGTCCTGTTAAACAACAATAGCGAAAACTAGTAGGAGGAGAAATAAGTCCAGTTAAAAATATACCAAGAAAAGATATTATTGGCAAACCAATCGAAATAATTTAAAGTAAGTTAAATTTCAAATCAAATTTTAGACTTAATAAGTTTCATCAAAATTCACTTAAAATTTCGGCTCACATCAATATTTCAATTTATAGACAAATTGTACTGGGTATCGGATTCCAAACCACCACAGAACTATAAAGACGCGTTCTTTTTCAATATTGATAATGACTTGACATACTTTCCGTTTAATAAGGATTTTGGTCCTCTTAACCTTGCCATGGTTCATAGATTCAGCCGAGAATTAGCTAGATTATTAAGAGATAAAAATTACGAAAATAACAGAGTTTTTCACTATTGTAGTTCCGAAGACCCTGCAAAACTTGTCAATGGCGCATTTCTAATGGGCTGTTTCATGGTTATCATTTTGAAAATGAGTGCTGAGAAAGCACATGAACGTTTCAGAACATATGTGCCGCTGTTCAAGCCATATAGAGATGCAAGCAAAGGTGACTGCCACTATCAGCTTCATCTGCTGCAGTGCCTCTAGGGTTTAGAATACGCCATCAAATTCGGATGGTACGATTTCAAGACCTTCAACGTCAAGAATTACGAGTTCTATGAGAGAGTGGAAAATGGCGACCTCAACGTCATCATCCCAAACAAATTCGTGGCTTTCATGGGACCAATCGAAAAACGCGATGCCAATCAAAGGTACGGCCACCACCCAGAGAAATACGTTGAAATTTTCAAAAAGTGGAACACAACAAGAGTCGTGAGATTGAACGAAGAAAAATACAACAAAAACTTTTTCACAAGAGAAGGCATCGAACATAATGACTTGTTCTTCATCGACGGATCGACCCCACCTGATAACATTGTCGAAGATTTCATGAACATTTGCGACAGCCACTTCGCGAGTGCCAATGCTGGCTCCATAGCCATCCACTGCAAGGCTGGACTTGGAAGAACTGGTACTTTGATCGGACTGTGGGCCATGAAGCACTACCAAATTCCAGCTGAGGCCTTCATCGGTTGGATAAGAATCGTGCGTCCAGGGTCAATTCTAGGACCATAATAGTTCTACCTCCCAAAAATGGAGAAAAACTACATCAAAACAACCGACGCTCAAGCAAAGAGTGCACAATGGGCCCAGAAACTAGAAAGCAGCCCCGTCGACAAGCACAAAGCCAAGTTCGGCGAAGCCGATCAAGCAAACTATTTACTTCTTGCAAAAGAAAGGAGCGCTGATAAGCATGCAAGAGAATTATTCAACAATGAAATAAAGGAGGAATCGAAATCTCCAGAGAAGAAATATAAATGAGATTGATTTTTCATCTTGTGATATCTTTTTTGAAACAATCCTATTAGCATTTATTTACACAAATACCAGCCAATTTACTATGAAATCAGGCAAGGAAATAGCAAAAGATAAAAAATCGAATATTTTCCTATTTTTAATAATGGACGGCCACTTTGTAACCAAACATTTATTTTGGTCAAAACATTATGCTTGGGAAAATATTTGACCAGCCAGCGCTTGAAAAATGGAAAAATTGGTTGACTTTATATTTAATTATAAATCGACGATTTCTTTTGTTCCAATAATGACCGTTGAAATATTTCACTGGTCAAGGGACCAACTATTTTTTGTCGAGGATGATATAACATATGAATGAAACGATATGAAATTCATAAAACTTTTTTAATGCTAATTTGAGATTAAAATAAAATAAAAATGATAAAAGAACTTTATTTCTAAATTTAGGGGTGTTGGGGTTTTGTGGAGATCGGAAGAGCAC
>sequence54
AATCTTTAAAAATTCAGATCAAATTTCTATTGCTGAATTTGGTGAAACTTCGTTATCAGGTTATGAATTAATTTTATTTTCAAATATTGGATTTTTAACTCAAAATGAAATTGAAAAAATCCAACAATTTCTTTTAAATGGAAAAAAGGTTTTTTTTATTTTGAATGAAAAAATTATTAAAAATAAGGATTGGAAATTTTATTTTAATTTTCCACTGATTTCTTCTGTTCGAGGAGCATCTTCAAACCAATTTTTTAATGCCGATGTTAACACTGAATTTTTTTCTCACTCTCTTGGGCTTGACAGTATAAAAGATCTAAAAGTTTTTAGATATTTTGAATTAAGCCCTAATCAAGACTTTTATTCTTTAATTAATTTAAAAAACCAAAATACCCTTCTTTTTTATAGTGAAGTACTTACTGGAGAAGTTTATTTTTTTAATTCATCCATTGATTCGAATTGGACTAATAATATTTCCTATGAAATTATTTTTGATATTCTTGTTGAAATTGCATTACGTGAAAAAAGTCTGAATGAATAATCAACCAGAAAAGGCGCTTGTTGTTGCACCTAAGATTTATAAAAGTGATAGAAACTATAATCATAGTTCAGATGAAATAAAAGAGCTACTAAATACACTTGGAATAAATGTTAGCGGTTTAATTTCTCAAAATATTAGTACAATTAACCCGGCATATTTTGTTGGAAAGGGGAAAGCAAATCAAATTTCTGCGCAAGCTTCTGAATTAAAAGTAGACTATGTTGTTTTTGATGAAGATTTAAGCCCTGTTCAGATAAGAAATTTTCAAAAACTTAATAAAGAGGTAAGGTTTATTGATAGAACAGGAATTATTCTTGAAATCTTTTATAATAATGCCAAATCCAAAGAATCAAGGACACAAGTTGAACTTGCAAGATTAGAATATCAATTACCAAGATTAACACGATTATGGACACACTTAGAACGGCAGATGGGTGGTTTTGGTACAAGAGCTGGTGCCGGAGAAACTCAAATTGAAGTTGATAGAAGAATAATAAGAAATAAGATCAGTTTTCTTAAAAAAAGACTATCTGATATTGATAAAAATAGAATTGTCCAAAGTAAAAATAGACAAAACTTTTTTCGTGTCTCATTTGTTGGATATACCAATGTCGGTAAATCATCTTTAATGAAAGCTTTAACAGGAAGCGACGTCTATATTAAAAATGAGCTTTTTGCAACTTTAGATACTACAGTAAGGAAATTATATATTGGGGATCAAAATTATGTTTTATTAAGTGATACAGTTGGATTTATAAGAAACTTACCTGACAATTTAATTGCTTCCTTCAGATCAACTCTTCAAGAAGTAGTTGATTCTAATTTATTGCTTGTTGTTCTAGATGCCAATTCACAAGATCTTTATAATGAGATTGAAACCATTAAAGAAGTCTTAAACGAAATCGGAGCAAAGGAAATCGATATTCAATATATTTTCAATAAAATTGATTTAGTGGGTCAAGATAAAGTTATTTATCTTAAAAAACTAATTCCTGAAGCAATTTTGGTCTCTGCAGAGAGATCCCTTCAACTTTCAAAAATCAATGAATCGATAAAGAAAAAGTTTGAATCTTGGATTAAGATTTTTCAGACGAGTCAATAATTGTTGCAATTGCTGCATCACCCGTAACATTTGCTGAAGTTCTAATCATATCGAGAATTCGATCAACTCCTAAAATCAACGCAATGCCTTCGCTAGGAACATTAATTGCTTCAAGGATAATAATAAGCATTACAACTCCAGCACCTGGTACAGCAGCCGTACCTATTGAAGCTAAAACAGCTGTAGCAACAATGGTAAATTGATTAGAAATAGTTAAATCAACTCCAAGAGCTTGAGCAATGAAAACTGCAGCAACACCTTGATAAAGAGCAGTTCCATCCATATTAATGGTTGCTCCTAATGGTAAAACAAATGATGAAATTTCTTCACTAACCCCTAAATCTTTTTCACATCTTTTCATGGTTACTGGAAGCGTAGCTCCACTGGAACTGGTTGAAAAAGCGACTAATTGAACGGGGATCATCTTTGAGAA
>sequence55
TAATTCAATGGTGGCTAATTTTTGGGATTCAAGGACTTTTTGAATACCCATTAATCCTCCCTGCTGAAAAGCCATGGTAGTTGCAAATTGTTCTAAGACTTGATTTAAATATTCAAAATTAGGTGTTACAAATAATTGTGGTTGTGCAGTGGTAATATCAAAATTGACGTCCGCGGTTGATAAATCATAAGGAATTTTTAATACTTCCGGTTGTAAGCATTCCTGAGATTCATTTATTGAGGATAATAGTCCTGCTCCATAGATCTTGGGATTCTCTAAATCCCCTATCAATCCATATTCGACTGTCCACCAATGCAGATTACGCACTCGAGCCATTTCTGAAAGCTCTCCCATATTTTTTTGAAGAGTTTCCACTTTTTCAGTAGCAATAGAGATTTCTTCTTCAGAGGAATTGGGATTTTCTTTTAAAATCGATAAATGTCGGATAGCCTGAAATAACTGATCATCAATGGGTTTTGATAAGGCCTTAGCTCCAATTTCTCCAAAACGTTTTAAATAATCTGAATATTCTTTATTGGCAATAATAGGAGCATGTCCTGCCGATTCATGGATAATATCCGGTGCTGGGGTGTATCCAACATGATTAATGGTACGAATATCTGCGGATATTACTAAAACGTTATTGGCTTGAAACTCCATAAACACCGCTGGTGGGATAAAACCATCTACGGCTACAGCTGCCCATCCGATATCTTTTAAAATACGATTCATTCCCTCCATTTGAGGAATCTCATCTATGGTAATACCCGATTTGGCTAATCCAGGGATAAAACTTTCATGAGCCACGTGTTGTAAATAATCAATGTTGGCTCGCATGACATAGCGCCAAATGGCTTGATCCTGAGCAGTATATTCAGCATAGGGTTGCTTGACGATATATTTTTGCAAATGCTTTGGAAGCTTACGGGTAATAGAATTGAGCTCTATGGTAAATTCAGACATCACTCATCGGTTAGTAGAATTAATGCAATGATTAATAACGAAAAAGGATACATGGCTCCACTAGAGAGAAATGCATTTCCTGCTACCGCTACTTTCATATAGGTTGCACCCAGCATGACAATGGCAATCATTAGAGAGCCTAGAACATTGAAACGCTCATTTCTAATTCCCAGAAGAAGAAAAATAGGCCCAATTAATTCAAATAAAACCACCATATAGCGGAGCCATTCTGGAAGCTTGGCCACCAGTCCTCCCACTTCACTGACAGGAAGTTTATTATATCCTGCTTTGAAAATAATGGCTGCAACGATCAGTCGTGCCAATAAGAATACCATGGATCGGTATCGATTAAAATTACATTGATCTAAAAAGTTAAACATGCTTTCCTATCTCCCATCCTGCTTGATTTAAATATTGTTCAGCCGATTGTTTTGCTTCTTCTTCTAAGGTAGTGCCCATCACATCATTCCAGCGATTTAAAAAACCAAATAAGGCTATTACACTAACTATTTCTAAAATATCTTCTTCAGACCAATTGGCCTTGAGTTCTCGTTCAAAAAAACGTGTATTCGTGGGTGAAGTACTAGCCGCAATCACAAAGCGTAGAGCAATTTTTTCTTGCATGGAAAATAATTTACTGTTTTCAAAATCCCAAGCTTGTTGTAAGCGCTTGTCGGATCCTCCATAGCGTTGAGCGGCTCGGATGGTGTGTGCTTGACAATAACGACATCCAGCGGTGTTACTACTGATATAGGCAATGATACGCTTGAATTCAGAAGAAATAGACCCTGCATTATCCATCACCGCTTTATTGAGATTGATAAAGGCATCCGCCATCAGAGGCTTTTTATTCATGGTTAAGACAGAATTAGGACAAAATCCTAAGGTTTCATTAAAGAAGGTGACAAGTTGTTTGGTCGATTCATCCTGAATCTCGCTTATAGGATGAACTAAGGGCATTATTCCTCCTCTTTGGAATTGAAAGTTTCTAAACGTTCAATAACAGGTTTCACATCTAAGTGAACCGAATCTAAATCCGTTAAATCCTCTGGTAAGTCTTGAAGTCTTTGAATATCCCTCACTGAAGGTTTTAATCGAGCGTTATAAGA
>sequence56
TAGGAGTGACGGTTTATTTGGAATACTCATTTTATTTGTAATGTTTGGTTGCGATCAGGTCCATAAGAAATCAACGACACTTTTGTTCCAACCACTTTTTCTATCTTTTGAATAAAATTTAATAAGGGTTGTGGGAGTTCATCAACCTGCAATTGTTCTGGTAAAGAACCCCATCCAGGTAAGGTTTCATAAACAGGAACTAGTTGACGAAAATTCTCAATATCCGCTGGAACTTGATTAAAGGGTTTTCCATTCAGAGTATAGCCAATGCAAAGTTTGATACTCTCAAAGCCGGATAAAACATCAATTTTGGTTAAAATTAATTCGGAAAATTGATTCAACTGGTGAGCATTCTTTAGTTGAACTAGATCGATCCAACCAACTCTTCTGGCACGTCCAGTAGTGGTTCCAAATTCTTGTCCAATTTGTCGAACTTTTTCACCTAATTCCTGTTCCATTTCGGTGGGAAAAGGCCCCCGACCCACATACGTTAGGTAGGCTTTAGCAATTCCAATAATTCGTTTGCGTTGATTCAAACCAATTCCACTACCAGCCTCGATTTGCCCCGCTATGGTGTTACTGCTCGTGGTATAGGGATACAATCCATGATCGACATCTAAGGCTGCGCCTTGTGCCCCTTCAAACATAATGTTTTGTTGATTTTCTAAAGCTTCTGATAATAATTCGGTAGTATTGACAACATAAGGTTTAATCAATTCTCCATAGGAAAGAAACTCAGTCAGAATTTCTTCAAAGGTGTGTTTGATCGATTGTTGAAAAACTTTTTCAATGACCGCACGATTGAAATCATAGGATTTTCGCAAGCGCTTTTCAAATAGATCTTTGTTCAATAAATCAGCAACACGTAAACCGTGTCGATATAACTTATCTGCATAGACTGGTGCAATACCAGATCTAGTACTTCCTGCAGCTAATTCATTTTGAAAATTGGTTAAATGATAATCCATTTCTACATGGTACGGCATAATCAAATGAGCGCGATCACTGATGGCTAAATTTAAGGGCAGTCCTTGAGATTGAATCATCTCAATTTCATTTTTAAGTACGCGAGGATCAATCACCACTCCATTTCCAATGACGAGCTTACAGCTTGAATGCAACACCCCAGAAGGAATTAAATGAAGTTTGAGGATTTTATCGTCTAAGATGATCGTATGCCCAGCATTATTTCCACCTTGAAAACGAACGACGAAATCTGCCTGAGAGGCAAAATAATCAGTTATCTTCCCTTTTCCTTCATCTCCCCATTGAGCCCCAAGAATGACAACTAAATTTTCGTTCATACGCTTAACTTACTCAAATTTTTGGATTATCCTTTAATTTTATCATAAGCTTTTAAAGCATAGTCTCTGGATTCTTCAATGGAGACTAATGGTTTCGGGTAGGTTTTCCCCAGTTCAATCCCATATTCTTCTAAAATCGCTGGAGAAGTCTCCCAGGGAGCAAAAAGAAATTCTGCTGGTAATGAAGCTAACTCTGGCACAAATCGCTTGATATAGGTACCATCTGGGTCAAATTTACGCGCTTGTAAAATCGGGTTAAAGATACGAAAATAGGGAGCAGCATCCGCTCCACTTCCTGCCGTCCACTGCCAACTAGCGGTATTATTCTGTAAATCAGCATCACATAAACAGTCTCGAAACCAATCCAATCCTTCTTTCCAATGTATTAAAAGATTTTTCACTAAAAAAGAAGCAACGATCATTCGTACTCGATTATGCATATACCCTGTTTCCCATAGTTCTCTCATTCCTGCATCCACGATAGGATAGCCTGTTTTTCCTTCTTTCCATGCTTTTAAAAACTCAGGGTTCTCCTCCCAAGGAAAGTTGTCAAACTTACCATTAAGATTTTCTGTGCACATGGAAGGAAAATGGAAAATTAAATAGTAAGAAAATTCTCTCCAACCAATCTCACTGAGAAAATGATCGATATCTCGTTGAGGATTACCCGATTTATCAGCAAACCAAATTTGATGAGGAGATACCTCCCCGAAATGTAAATAGGGTGACAATCGAGA
>sequence57
CCCCAAAACCCCAAAACCCCAAGTTTATGAAAAAATTCGCTCAAAAATGTTTAATTTTGTGAATTCAGAAAAAATATATTTTTGCGAGCAAAATAGGAAAAAAATATTATACCCAAGAAAGGAATGAAAATTTTTCGTTAAAAATTGAAATGACACGAGAAAAATGAAAAGAGTCAAGTTTTTATCTTAAACAATTCTTAAATAATTAGAATTAGAAAAACCTAAGTGAATTTAGAAAAAATGCTCATTTCTTTCCCATTCCTCTAACATCGACAACCTTTTGGAGGGTCTTGATGGCGTTTTCTAATACTGGCTCGACGGATTGCATAATACCAAGTCTTCTTTCCATATCATTGATTTGTGGCTGCATTCCTTCGATAGCTTTCATTTTTCTGGCAACCTCAACAAGTGGTTGTCCATCGTCGAGTCTCTTGAGGATTCTAGCAGTGAGGGCCTTTTGGATGTTCTTGATAGCGGCGGTCTTGGCAACAGCAGCATCACCATCACCTCTGGCTTCAGCGGATTGAGCAAGGCTGAGTTCAGATTCAAGAGAAACGAGGAGTTGGTCTTCGTTCATGGCTTCATAGGATTCTTCAGTTCCGAGAAGCTCAACACTTCTGTGGTGGTGGTGGTGTCTGGCAGCAGCAACGGCAACAAGGGCAGCGAATTTCATTTGTGAAAAGTTTGTTTTTAATTTATTAATTATAAAATTTTAATGTTAAGTTGATTTTAAATGAGACTAAAGCATTAATTTTTCGTTAATTTTTGCAAATTTTATCAACCAGAAAACAATTGGTCAATCAAAATAATCAAATGTTCACAATATTTATCAAAATAAACGGAATTTTTAACGTATTCATAATTTAAATTTATCAAACATAACACAAATTTTGATTTTTTATGCTTCAGAAAAATGTCTAAATTGTAAATTTGTCCAATTTAGTTTTTTTCAAATAAATTATAAAAATTAACGGACTTTTTTAAATTATTACATTTTTCTTTTTTAACTAAAAATTATAGAAATAAAAATGTAGGACATGTAATTTTATAAAGAAGAAGAGGAACAATTTGATTTCTATAATACTGATCTAGGCAAAGATTGCAATGACGTTCCACCAATGCTTTACAGCATAAACTTTGGAGGTTAAGAAAGAAGATATGATGAATTTAGCGAAATTTCAAACGCATAAAATTAATAAAATAGCCTATTGGCAGATTTAAAGGGATCATTTACAGAAGAATGCAATTTAAGCAACCTTCCAAATCAGTCTACTTAGTAATATATGAATTGTGCACTATCATAAGCTCCAAGTTTATACTCTGTAAAGTTAAGTTCAGAGTGCACCTTATCTGTAAAATCGTAAGATAGTGACCATTCATTTAGATGCGTAGACTTATAATAATAACTGCAATAATAATAAAAATAATTATTTAATAAAGAAATTTATTAATAAAATTGGGAAGAAACATCTGAGAATATAATGTCCTCGACAAATTCAAACTGGAGTTTCTAGGCAGAAGGAGGATAGATAAACACTCTTCCGCCCGCTTAAGAAGAACAAGAAAAGAAACCAGAACCGAAAGAAAGAGTTTATTATGCAGATTGGGTAAGAGCAGCAGCAATCATATTAGTTATCTTTGTACACTGCTTGGTGAACTCTTTCGACGCCAGTGGTCTTGATCCAGATGATGTCCCAGAGATTCAATAAAAAAAGGATGGTATTATCAAATGCCTCGTTCAGATAGGTATCCCAATGTTCTTCTATATCTCAGGAATAGGTGCCACTTTCTTCGATACTGAAAAAAATCATTATGGTATCTTCGTTGGCGGAAAAGTTCTTAGACTTTTAGTGCCATTTGTTGTTGCCATATTTGTTTTCTTGATTCCAAGGTTATATTTCGGACAATAATATGAAGATTGGACAAGACCAAATGATGAAATAGAATCTAACTACTGGGAATACATGAAGAAAATCCTTCCA
>sequence58
CTTGCGTTCGTCGTCAATGTATAAGTCGATTGGTTTTGCAGGAGAAAGTGCTCGAGAAATAAAGATTTCAGATTGATCAGAATAATTGACAATATCAATTTTTTCATTGTTCAATTCACGAACCACTGATTGGATTCGACTCCCTCTCATCCCAACGCAAGCACCTACAGCATCAATCCTTTTATCTAAAGAATGAACAATAATTTTACTTCTTTCTCCAGGTTTTCTGGCAATGCCTTTGATTTCAATTATTCCATCTTCAATTTCTGGAACTTCCATTTCAAATAGTTTATATAAAAACATATCATCGCTTCTAGAAATAATGATATCAGGACCTTTAGAAGTCACATCCACGGATTTTACTAAAGCTCTGATCGTATCTCCTCGACGAAAACGCTCGGAAAAGATTTGCTCATTTCTAGGCATTCTCAATTCTGTATGTTCAATATTAACAAAGGTATTTTCTCGATGAACTTGATGTACAGTACCAATAATAACTTCCCCGATACGTTGGACATAATCTTCATAAATGTACTGCTGTTGTACTTCACGAGTTCTTTTGTTTAAAAACTGACGGGCATTCGCAACCAGTCTTCTACCAAAACGAGCTGGATCGATGACTTCCACAAAAGTATCTCCAAGTTTCAATTCACCCGCTAAATCTGGTTCCAATTCGATGGCGCGCTCGAGTGAAATATCAAAATGGTCATCATCGACGTTTTCAACGATGGTCTTTTCCACATAAATTTCTATTTCACCTTTATCTAAATTGACAATTACACTACAATTATCTGCTTCACCAGTTTCTTTTTCAATAATAAATAAAAATAACTGTTCGATAATGGTACCCAACTCTGATCTCTCAATATTTTTTTCGCGAGCCAGTTCAATAAAAATATCAATCAATTCTCTATTAATCATTTCAAACCTTTCATTTAAATATAAAAAAATGGGCCGTAGCCCATTCAAACACCATAAAATATATTTAATTTAACCTTAAAAAGATAGAGAAATCTTTCTTAGGATTGAGAAATAACGTATCCATAGACTTCTTCGTATAACTCACGATAGGAAATATCAGAAATGTCTAAGGAATCCAGAACGCTTTTTGCCTCAGCAATACTCCCATCTTGAGCTAATCTTTTTGCTTTATAGATAGTGATAAAGGCAATCTCATTTTCAGAATTAGTAAATCTTAAAGCAGTATCAAAATATTTGATTGCCTCATTTGAAGTCGGGGCAATCTGTCCTAAAATCAAATAAGCTTCTTTGTTTAAAACATCATAATCTAATTTTCCAGCTGAGGATACAAGATATGAAATTGCTTCCTCATTCTCCCCATTGATAAAACTAATTCTACCTAAATAAAAAGAGGCTTGGAGCGCCTGAGAAGAGCGAGGATATTGATTGATAATGGAAGATAACTGTAGTGCAGCATTGTCAAAATCCCCTCTTTCGAAATAGACCATTGAATTACTTAAGGCGATTTCGGCATCAGAAATCGTATTTTTTGAATTAAAAGTCGTGCTCAATAACAAAGCAATGACAAATAAAATTAAAATTACTGGGTTTAAAAATATTTTCTCAATCAAAGATGGATTTTGTTTTTTGGACAAATTCCATTTTGAAAGCTTACTGATTTGTTCTTCAAACTGCATCTTTTTGTAATCCTTTTAATTTAGGTCTGAATTTAGTGGATAATTTTAAGGATGTAAGTCTTTTATTTTCTAATTCTCTATTTTTGAGTTGCTCTTCTTTTGGTAAGCGTACAAATTCTTGGCAAGATTTTGAACAACAATCCTGATAGTTTTGTGCGCAATTCTCACACTGAATGAATAATAAATGACAGGTTTGATTCGCGCAGTTCTTATGCGAATCAGCCTTAGTGCCACATTGATGGCAATGCGCTAGAACATGTTCTGTGATTCGTTCACTCATACGGTCA
>sequence59
CCCCAAAACCCCAAAACCCCAAATTTTTGAAATTCATATTGTTTTCTTGAAATATATAGTTGAATGTTCTATATTTAAAAACGACTTCATTCGTGAATTGACTGTGACATCATTTTCAATTCTTCAACTTCTTTTTGAAGTTCCCGCCTTGCTTGCTTTTCCTCTTCTAGTTCTCTCTGAAGCTGGTCAATCACAGATTTTCCTGTAAGTCTAGTTCCAGCCTGACTTTCTACATTTTCGAGTTGTTCGTCGACATCAACGGCGTCTTATAACAGCATATTTTGGCCTTGTGGGTCTATTTCTGCCTCTTGAGCTGCCACATCTGCCTCTTGGGGATCCGAGTACGGATTTTCTTCATTTTCATTTTTCATTTTTTGGGTATTTGTGAGTTTGGCTACGTTTTCTCTTATTCTGTTGAATTCTTCCATATGTCTCACAACTTCAGTAGTCTTAATACTTTGCTGCGGTTTTCTCTATCGCCCCATGAAACTACGATGCCTTGGTCCAAATGCTGAATTTAATCTTGATTTTCTAGATTGAGCGGAAACTGCAGATTTTACGCTCATTCCGCCGCCTGGTCCCTTAGAATATTGGCTTAGCGCCTCCAGGTCTCCTTTTTGCTTCAGCGCTCTGGCTCTGCCGCCTGCGCCGCTTTTTCTCGAATTCAATTCAGGTGGCCGCGTTAAATCTTGGTTTTCATTAAATCTGAATTTTTCATTGCTGTCAAAATGTATGACCAGGGACTGATTTTGCGTTCTTATCATATTTTATATGTCTTCTTAAGTTACAATTTGTGGTTAGCTCGGACTGTATTTGTAGCCAACGCGCTTGAAATATTCTTCAGGAAAATACTTTTTCATTTGCCTGACTTTTAATTTATTAGGTGTTTCCATCGTATTTACGCGACTGCTTTGTGGTCGATTTCGCCCGCCCTGGTGGCTGATAGGATTATTCACATTATATCCTCGCTCACTTAGGCGCCTATTATTCACGTGCAAAGTTGACGATACGTTTTTCATACTTCGAGTCATTTTCCCTTCATTTCCATCATTTTCTTGCGTTTTGAAATTGCAATTTCTAGTTCCGCTCTGGCCGGCGTATTTTCCTCTATACAGCAGACCCTCAGGCATTTTAATATCCTACTTTACAAGTTCATATATCGATTTTTGGGGCGTTCCCTATGCCTGTGCAGCAAAAATACTTTAGCCAGTTCTTCTCCTTGGCGAATTCGAACTATTGGTGCCAGCCAAACTAGTTTGATAATTGTCATTTATAATATATCTGGGCTGGGATCCGTTGTATGGATTATTCAAATAAGTTTCATATTCGTTATATTAGCCATAATTTTACAATTTACCCCTAGATCCGGTCAAACTTGCTGGAGCCGTGTGCTCAGATGTAACATCACCAAATCTTTTCAATTTTTGGTATTTCGGCAAAGTATTTTTGCTTAGTTTGCGTTCCATAAGTCTTTGCTACTCGCGTTTTTGTTCAACTGTGAGAAGATTGGCAAAACAGTGATTATAATTACTAAATCCACAAAATTTATCAGTTAAAATGAACAAACTTACCTCGCTGTTCTTGGATCAAATTTTGACTTTGTTATTATTGGAATTTTGTTGTCGGCAATTCTATTCAAATGTCTGTAAAATAATAAAAAACAAAAAATTAGCATTACTTCCCAATAATTGTACTTACTGCTTATATGCGCTAAATTCATGGCCAACTCTTTGTTACCATGCATTGTGATCAGTTATATAACTCATTTTTTTATTTTCCGTCGAAAATTAAATTTTATAATTTTTTTAATTTGATTTATGAATTTTTTTATTTCAACTTTAATTTTAAAAATATTTTTTCCATAAACTAGGGGTTTTGGGGTTTTGGGGTTTTGGGGG
>sequence60
AAACGTACCCAAGCCTTCCCCCAAGCAAGACTCCAATAAAACACCAAGTTAATAAATCTTCGAATTGGTTGAGATTTAAAAGGCGAAATTTATTGTTTTGTATTTGTTGTTTTCCTAAGAGGAAAACTACCAGAAAAGCCACTAAATACATGGTAGAATACCAATAAATGGATAGTGGACCTATTTGCAGTAAAATTGGATCCATTTTTGAAGGTAATGATTGCCACCAATTTGAAAAATTCATCTTGTAAAATACAAAAAATACTTTGCAAGCTAAAAAAAAATATATAACCTAACATATTATGATTCTATCAGGCAAAGAAATAGCAAAACGAAATGGTATAGATTTAGTTATTGATCCATTTAATGAGAATCAACTCAATCCAAACAGCTATAATTTGACTCTTCATAATGAATTGCTTGTCTACGACAAACCTATCCTAGATATGAAAGAAAATAATTCTGCTTCTAAAATTATCATTCCTGATGAAGGGCTGGTTCTTGAAAAAAACAAATTATATTTAGGTCGAACTATTGAGTATACTGAAACCAACAGTTTGGTTCCAATGCTTGAAGGACGTTCTTCAATTGGTCGTTTAGGATTATTCGTACATGTTACTGCTGGATTCGGAGATGTTGGATTCAAAGGGTTTTGGACTTTAGAAATTTTTTGCGTACAACCAATTAGAATCTATGCAGGTGTAGAAATTTGTCAGTTATTTTATCATACAATTGATGGCGATTTTGATACATATAGTAAGGGCAAATATCAAAAAAATTCTGGAATACAAACAAGCAAGCTTTATGAGGAATTTAATGAGGATTAAAACCCTTTTAGCTACCCCAATCATATTAATTATAAAGTTATATCAAATAATAATTTCTCCATTATTAGGAAGCAATTGTCGCTACCAGCCAACCTGTTCACAGTATAGCGTTCAAGCCTTAAAGGAATGGGGAATTTTTTATGGACTATTTTTATCCCTTAAAAGAATTGTGCGTTGTCATCCATGGGGTGATTCTGGCTATGATCCGGTCCCACCAAAAACAAAACTATGAATGAAATTATCTCAAGTTTAGAATCCTTTATTTCCAGTAGCTTTACTTATCCAGCTATTTTCATCTTAGGTATGTTTCATGCTCTAGAACCGGGTCATGGAAAAACATTAATCATTACTTACTTATCAGGAGGGTCTACAAGATTTTGGGGATCTTTTCAATTGATTCTTGGTTTAATTTTAACCCATTTTTTACTTTTTTCTGCCTTGGCTTATTTAATCACTATTGGCGGTGAACAATTCCCAGCTGTACAGATATTGGGTCCTATCTTAATTATTGGCTTAGGGATTTATCTTTTTTATCGTTCATTTTTTGAAACTAGACATGAAAATGAAGAAGAGTGTTCCGATCCAGCCCATTTTCACTTCAATGATTCTAAATTTTCGAATCCATTTATAACCGGATTAATTGCTGGATTGATTCCATGCCCATCAGCGATTGCAGTAATTTTAATTTCTGCTAATCAGTTCAGTCAAAACAGCTTTTCTCTCTATTCTTATATCTTTATATATGTGCTTGGAATTGCTTTGACTTTAACAAGTATCATGGCATTGTTTATAATTTTTAAAGATAGATTTTCTAATCAATTAAATCGGGTCAATTCTAAGTTTAATACAAATCT
>sequence61
CCCCAAAACCCCAAAACCCCATATTTTTGAAAATAAAAAAGTTATCTAAATTATTATAATGCAAAAAAAATTAATTTTTTAAATTTAACAAAGGTCAAAAAAACAATTGGGAAAATTTTTTGTATGAAATTCATTAAAATGCCAAAAAAGTGTTTCCTCAAATTTATGATCAGTTTTTCATTTCTTTTCTGTTAGTGCCTTAAGCGAATAATTTAACGATTTCTCATAATTAGCCGAGCGAGATTCTATAAACTTAGGCTAAACATCAAAGGGTGGAACCGATCTTTATCTTGGTTATTGCTGAGATGTATTGCTTTAGGATCGAGAATGTATATTTGGTATTGTATTATCGTATTGGATAGTCTTTCATGGATTTATATTTTTGGGAATGTGAACTAAGTGTGTAAGGTCTGAAGATGTAATTGAAGCATCTGCCCGTCCATTTTATGGAGTGTTATTGTCGCCGTTGTTTTGATTACTGATAAATTATCCGGACGATTCAGGCATTGGCTCCCTAAATTCATTATTACGCTATGATGAATTATTATCTCGCCCACTGTATAATATGGGTACGTCTCTACCTTTCTTTATTCCTTCCACATCTTTTCCATTTTTCTTTTCGCTGTAGATTTCTTCAACTCCAGATTCAATACCTCTGTTGGGTTGGATTTCGTGATCGTTAGTAAAATATTTTTCATCATCCGGAACTTGTTCGTCGTTATTTTAATGGTTCTTTTTTCTTGGAGCCTTCTTTTGATATCTTGGGCTGCCATAACTATTGTTATTGTTGATAGATCTTTGACTACCCAGCTCCTCAAATGGTAAATCGACGGTTGGTAATTATGGATCTCCTTTTCGTGGATGTGTGTCAGTAAATATTGATGGTTGAAGACGAGTTGGACTTGCTTCACACAATTTGTCAGTTCGGCCTCTTTTTCCATTGTTTTGATTTTCAATATCGTTGATTGGCGTACCTGTGGGTCCAATTTCTATAGATCCAGATATTTTATTTCTTGAGCTCAATTTTCCACCTTGCAATCCTCTAGGAGAAATGCGGCCTAAATTTCTTTTGTTCATCATTTCATTATCATGACCCATCTCAACTTGATTTTAGCTATATCCTGGTGTTAGATTTCCAGAATGACCCTATTCGGTAGCCATGTGAGAAACAAGACCTTTTCTTTCACTATTAAGTGGTCCTTCAGTATCAGCTTTTGACTACATTGATTACATATCTCTATGCATTACTCTCGACCTTACATTCATTTCCTCAATAACCCTTATTGTCACAATTATGGCATATACTAGCAATATGATTGCTGCTATTATAATTAAAGCAAGAAAGAAGAAAATGAAAGGTTTCGCGTCGATACATGCATTTATACAATTTCCATCTTCGTCAACTTCTGCTATTGCTTTATTGAATCCAGCCAAAAATCTAATGGCATTTTTTTATATGTGCGAATTTAGGGATGCCATTAAATGAAATTATATTTTAAAAATTTATTTTCTTTAAAATTAATTATCAATTATCAAATCAAGATAAAATTAGTTTTATTTATAAAATAGAAGAAATTTTCTTATTTGAGGGGTTTTGGGGTTTTGGGG